Human Cell Exposure Assays of Bacillus thuringiensis Commercial Insecticides: Production of Bacillus cereus-Like Cytolytic Effects from Outgrowth of Spores.

Most contemporary bioinsecticides are derived from scaled-up cultures of Bacillus bacillus (bəsĭl`əs), any rod-shaped bacterium or, more particularly, a rod-shaped bacterium of the genus Bacillus. Some bacterium in the genus cause disease, for example B. thuringiensis subspecies subspecies, also called race, a genetically distinct geographical subunit of a species. See also classification. israelensis (Bti) and kurstaki (Btk), whose particulate fractions contain mostly B. thuringiensis spores ([is greater than] [10.sup.12]/L) and proteinaceous aggregates, including crystal-like parasporal inclusion bodies (PIB See NIST binary. ). Based on concerns over relatedness to B. cereus-group pathogens, we conducted extensive testing of B. thuringiensis (BT) products and their subfractions using seven human cell types. The Bti/Btk products generated nonspecific nonspecific /non·spe·cif·ic/ (non?spi-sif´ik)
1. not due to any single known cause.

2. not directed against a particular agent, but rather having a general effect.

nonspecific

1. cytotoxicities involving loss in bioreduction, cell rounding, blebbing and detachment, degradation of immunodetectable proteins, and cytolysis Cytolysis

An important immune function involving the dissolution of certain cells. There are a number of different cytolytic cells within the immune system that are capable of lysing a broad range of cells. . Their threshold dose (Dt [approximately equals] 5 x [10.sup.-14]% BT product/target cell) equated to a single spore and a target cell half-life ([tLD.sub.50]) of approximately 16 hr. At Dts [is greater than] [10.sup.4], the [tLD.sub.50] rapidly shifted to [is less than] 4 hr; with antibiotic present, no component, including PIB-related [Delta]-endotoxins, was cytolytic cytolytic

pertaining to or emanating from cytolysis.

cytolytic reactivity
type II hypersensitivity. up to an equivalent of approximately [10.sup.9] Dt. The cytolytic agent(s) within the Bti/Btk-vegetative cell exoprotein (VCP VCP Verband Christlicher Pfadfinderinnen und Pfadfinder (German Scouts)
VCP VMware Certified Professional
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VCP Vietnamese Communist Party ) pool is an early spore outgrowth product identical to that of B. cereus cereus: see cactus.

cereus

Any of various large cacti (genus Cereus and related genera) of the western U.S. and tropical New World, including the saguaro and the organ-pipe cactus (Lemairocereus thurberi, also L. marginatus or C. thurberi). and acting possibly by arresting protein synthesis. No cytolytic effects were seen with VCP from B. subtilis and Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. . These data, including recent epidemiologic work indicate that spore-containing BT products have an inherent capacity to lyse lyse (liz)
1. to cause or produce disintegration of a compound, substance, or cell.

2. to undergo lysis.

lyse or lyze
v.
To undergo or cause to undergo lysis. human cells in free and interactive forms and may also act as immune sensitizers. To critically impact at the whole body level, the exposure outcome would have to be an uncontrolled infection arising from intake of Btk/Bti spores. For humans, such a condition would be rare, arising possibly in equally rare exposure scenarios involving large doses of spores and individuals with weak or impaired microbe-clearance capacities and/or immune response immune response
n.
An integrated bodily response to an antigen, especially one mediated by lymphocytes and involving recognition of antigens by specific antibodies or previously sensitized lymphocytes. systems. Key words: biopesticides, bioreduction, cell death, cytolytic factors, endotoxin Endotoxin

A biologically active substance produced by bacteria and consisting of lipopolysaccharide, a complex macromolecule containing a polysaccharide covalently linked to a unique lipid structure, termed lipid A. , immunodetection, immune sensitization sensitization /sen·si·ti·za·tion/ (sen?si-ti-za´shun)
1. administration of an antigen to induce a primary immune response.

2. exposure to allergen that results in the development of hypersensitivity. , [sup.35]S-methionine, vegetative vegetative /veg·e·ta·tive/ (vej?e-ta?tiv)
1. of, pertaining to, or characteristic of plants.

2. concerned with growth and nutrition, as opposed to reproduction.

3. cells. Environ Health Perspect 108:919-930 (2000). [Online 18 August 2000] http://ehpnet1.niehs.nih.gov/docs/2000/108p919-930tayabali/abstract.html

The major sources of microbe-based biotechnology products (MBPs) released into the environment today are commercial Bacillus thuringiensis (BT) products that are derived from similarly produced, large-scale, sporulation-phase cultures of B. thuringiensis subspecies, mainly, israelensis (Bti) for targeting the larval stage of blood-sucking flies (Dipterans) and kurstaki (Btk) for targeting foliage-eating larvae Larvae, in Roman religion
Larvae: see lemures. of moths (Lepidoptera) (1,2). The combined production of these BT products exceeds 500 metric tons annually in North America (3). From the point of view of homogeneity, these biopesticides (also known as bioinsecticides, biorationale pesticides, or biological control agents) are very complex (2). However, whether in dry (powdered) or liquid states, they are very similar because they are essentially mixtures of culture ingredients that include, in increasing order of their mass, variable amounts of minerals, extracellular nucleic acid nucleic acid, any of a group of organic substances found in the chromosomes of living cells and viruses that play a central role in the storage and replication of hereditary information and in the expression of this information through protein synthesis. , a large spectrum of proteins (mostly sporulation sporulation /spor·u·la·tion/ (spor?u-la´shun) formation of spores.

spor·u·la·tion
n.
The production or release of spores.

sporulation

formation of spores or sporozoites. phase-specific), and viable spores, often exceeding [10.sup.12]/L of BT product (2,4,5). The liquid versions of both Bti- and Btk-derived commercial BT products can be easily fractionated by differential centrifugation to yield similar-sized particulate fractions containing [is greater than] 99.9% of the spores and also the proteinaceous component made up of both regular and irregular amorphic structures (2). This proteinaceous material cannot be quantitatively separated from spores and other culture debris. The regular variably sized aggregates are predominantly those that are often referred to as crystal toxins (1,6). These structures make up the bulk of the mature parasporal inclusion body (PIB) matrix and contain most of the [Delta]-endotoxins precursors (also any partially processed or degraded forms) encoded by specific cry genes (1,6). The PIBs are known to be coformed during sporulation within the sporangium sporangium /spo·ran·gi·um/ (spah-ran´je-um) pl. sporan´gia any encystment containing spores or sporelike bodies, as in certain fungi.

spo·ran·gi·um
n. pl. or spore-mother cell, but exact details concerning molecular and cellular events in their formation and maturation have not been obtained.

The PIB components of Bti (spherical) and Btk (bipyramidal) are uniquely different in shape and in protein composition, albeit we note in this study [and also noted by Beegle and Yamamoto (1) and Seligy and Rancourt (5)] that their size and amount in both cases can be highly variable. There is also a considerable amount of poorly defined, amorphic, proteinaceous material that we suggest originated from various stages of the culture process, including trace amounts (usually [is less than] 1% of viable spore count) of enzymes such as [Beta]-lactamase, proteases, and cuboidal-like crystals, the latter whose composition and cytotoxic effects are unknown (1,2,5). Our previous analyses (2-5,7) suggest that most of these structures are the likely sources of the prominent polypeptide polypeptide: see peptide. size classes (60-67 kDa and 132-137 kDa) related to different maturation stages and classes of different [Delta]-endotoxins, which essentially define the subspecies in the B. thuringiensis classification system and attribute target organism's toxicity (1,6).

Through the years, the research and development emphasis on B. thuringiensis-mediated insecticidal activity has focused almost exclusively on the different types of [Delta]-endotoxins, which are uniquely encoded by over 60 cry genes (6). However, only a few of these [Delta]-endotoxins have been actually studied in any critical detail. Also, in comparison, the B. thuringiensis spores and other components that are obviously present in BT products have been greatly underinvestigated either as bona fide [Latin, In good faith.] Honest; genuine; actual; authentic; acting without the intention of defrauding.

A bona fide purchaser is one who purchases property for a valuable consideration that is inducement for entering into a contract and without suspicion of being components of "active ingredient" or as potential hazards (1,2-5,7). In side-by-side tests using insect cell assays similar to those claimed to be effective in the elucidation of B. thuringiensis [Delta]-endotoxins (8-11), we demonstrated that the most toxic constituent of whole BT products is actually spore related (4,7). Depending on dose expressed either in international units international units,
n.pl a unit of measurement that evaluates the potency of a substance. Because it measures potency instead of quantity, there is a different international unit-to-mg conversion ratio for each particular substance. or percent of BT per target cell, and temperature (23 [degrees] C to 37 [degrees] C), we found that the spore-induced response time, measured as target cell half-life ([tLD.sub.50]), was entirely consistent with estimates of pest mortality derived in field and laboratory tests with larvae (7). Because the fastest response time, measured in terms of [tLD.sub.50], was [is less than] 4 hr at 37 [+ or -] 3 [degrees] C (the optimum Btk or Bti spore outgrowth temperature) and because 5-20% of these spores remained viable, even under the harshest pH and temperature conditions used by the human body defense system (2), these spores have the potential to survive and also to propagate in an in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body.

in vi·vo
adj.
Within a living organism.

in vivo adv. mammalian environment.

Our concern over the virulence potential of these organisms focuses on evidence that demonstrates the close genetic similarities between B. thuringiensis organisms and B.cereus and B.anthracis pathogens (12,13) reports on putative infections arising from various B. thuringiensis subspecies (14-20), and recent epidemiologic evidence of Bernstein et al. (3) showing the occurrence of immune sensitization from use of commercial BT products in the control of lepidopteran lepidopteran

Any of the more than 155,000 species constituting the order Lepidoptera (Greek: “scaly wing”): butterflies, moths, and skippers. The name refers to the dusting of minute scales that covers the wings and bodies of these insects. pests of agricultural crops. In this agriculture-related exposure study, the immune sensitivity displayed by migrant workers was directed mainly at spore and vegetative cell components, suggesting that the [Delta]-endotoxin components, at least as presented in BT products, were not very reactive, basically masked as compared to other cellular components. Therefore, as a baseline approach to clarify at least some of the concerns raised here, we conducted a detailed comparative study of the exposure effects of contemporary commercial BT products using several bioindicator Bioindicators are species or chemicals used to monitor the health of an environment or ecosystem. They are any biological species or group of species whose function, population, or status can be used to determine ecosystem or environmental integrity. systems with a variety of cells derived from different human and animal tissues.

In the present study, we summarize a large body of these cell and molecular biology Cell and Molecular Biology may refer to:

Cell biology
Molecular biology

experiments and illustrate key findings with data derived mainly from a human cell line (HT29) that has been used to model intestinal epithelial cell differentiation and effects of chemotoxins and microbial microbial

pertaining to or emanating from a microbe.

microbial digestion
the breakdown of organic material, especially feedstuffs, by microbial organisms. pathogens (21-34). Because contemporary Bti/Btk BT products are complex in composition, we carried out a series of experiments using subfractions of BT products (2,3) to determine which ones were the most biologically active and hence might potentially represent the biggest hazard. These experiments included analysis of BT product derivatives that could arise essentially by a form of biotransformation biotransformation /bio·trans·for·ma·tion/ (-trans?for-ma´shun) the series of chemical alterations of a compound (e.g., a drug) occurring within the body, as by enzymatic activity. as in the parlance of chemical toxicants. In this context, the BT product ingredients are transformed either through proteolysis proteolysis

Process in which a protein is broken down partially, into peptides, or completely, into amino acids, by proteolytic enzymes, present in bacteria and in plants but most abundant in animals. of the proteinaceous moieties, particularly the pro-[Delta]-endotoxins associated with PIB and amorphic structures, and/or through the production of spore-derived vegetative cells and their exo-products and products made afterward during a second generation of sporulation-phase activity. In reference to Bti/Btk vegetative cell exoproteins (VCPs) we also investigated their cytotoxic properties using [sup.35]S-methionine in experiments to measure effects on human cell biosynthesis Biosynthesis

The synthesis of more complex molecules from simpler ones in cells by a series of reactions mediated by enzymes. The overall economy and survival of the cell is governed by the interplay between the energy gained from the breakdown of compounds and VCPs derived from strains of B. cereus, B. subtilis, and Escherichia coli.

Materials and Methods

Human target cells. The American Type Culture Collection American Type Culture Collection (ATCC) is a private, not-for-profit biological resource center whose mission focuses on the acquisition, authentication, production, preservation, development and distribution of standard reference microorganisms, cell lines and other materials for (ATCC ATCC American Type Culture Collection, see there ; Rockville, MD, USA) supplied the colonic epithelial cells (Caco-2, lot F-10803, and HT-29, lot F-12101), liver cells (Chang, lot F-11873, and Hep-G2, F-11225), and human blood derivatives, HL-60 (F-11917) and K-562 (F-11533). Mature erythrocytes Erythrocytes
Red blood cells.

Mentioned in: Bartonellosis

erythrocytes (ē·rithˑ·rō·sīts),
n.pl red blood cells. were collected as previously described (3). Conditions for short- and long-term cultures are described elsewhere (4,7,29,30). Briefly, cells were cultured using Dulbecco's Modified Eagles Medium (DMEM DMEM Dulbecco's Modified Eagle's Medium (for cell culture growth)
DMEM Design Manufacture and Engineering Management Department ) with 25 mM glucose, 2 mM glutamine glutamine (gl

`təmēn), organic compound, one of the 20 amino acids commonly found in animal proteins. , 10% (v/v) fetal bovine serum Fetal bovine serum ( or foetal bovine serum) is serum taken from the fetuses of cows. Fetal Bovine Serum (or FBS) is the most widely used serum in the culturing of cells. In some papers the expression foetal calf serum is used. (FBS FBS
abbr.
fasting blood sugar

FBS Fasting blood sugar. See Fasting glucose. ), and 50 g/mL gentamicin gentamicin /gen·ta·mi·cin/ (jen?tah-mi´sin) an aminoglycoside antibiotic complex isolated from bacteria of the genus Micromonospora, in either T25 or T80 flasks (Life Technologies, Burlington, Ontario, Canada). Treatments with BT products and their subfractions were conducted in 6-, 48-, and 96-well plates at 37 [degrees] C. Effects of dose, head volume over monolayers, and apical-basal surface exposure were assessed using 6- and 12-well culture plates with porous membranes for transfeeding (0.22 [micro]m pore size; Costar, Cambridge, MA). Monolayers (2 x [10.sup.6] cells/[cm.sup.2]) were established 1 day before testing. All cell types were rinsed with DMEM (2 times) to remove antibiotic immediately before treatments. For scanning electron microscopy (SEM) analyses, cell monolayers were established on glass coverslips. Following exposure, cells were fixed with 4% (v/v) glutaraldehyde glutaraldehyde /glu·ta·ral·de·hyde/ (gloo?tah-ral´de-hid) a disinfectant used in aqueous solution for sterilization of non-heat–resistant equipment; also used as a tissue fixative for light and electron microscopy. in 100 mM sodium cacodylate (pH 7.2) at room temperature (RT), post-fixed with 1% (w/v) osmium tetroxide in 100 mM sodium cacodylate, and dehydrated de·hy·drate
v. de·hy·drat·ed, de·hy·drat·ing, de·hy·drates

v.tr.
1. To remove water from; make anhydrous.

2. To preserve by removing water from (vegetables, for example). with an ethanol series. Samples were dried in a critical point drier (Autosamdri 814; Tousimis Inc., Rockville, MD, USA), sputter-coated with 10 nm gold, and viewed with a JEOL JEOL Japan Electron Optics Laboratory JSM JSM Journal of Sexual Medicine
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JSM JEOL Scanning Microscope 6400 scanning electron microscope scan·ning electron microscope
n. Abbr. SEM
An electron microscope that forms a three-dimensional image on a cathode-ray tube by moving a beam of focused electrons across an object and reading both the electrons scattered by the object and (JEOL USA, Peabody, MA, USA) operating at 10 kV.

BT products and subfractions. We used primarily the BT products F48B (Btk strain HD1) and VB12AS (Bti strain HD14); however, several others were also investigated and are described in detail elsewhere, along with methods of manipulation and quality control analyses (2,5,7). The concentration of any BT product or derivative subfraction (also vegetative cells) was determined according to recently validated methods (7,13) and expressed as percent of BT product or equivalent, based on the content of viable spores or bacterial cell and/or protein contents relative to contents of undiluted (whole) BT product as the standard. Generally, side-by-side comparisons of BT products required only minor volume adjustments ([is less than] 5%) to equalize e·qual·ize
v. e·qual·ized, e·qual·iz·ing, e·qual·iz·es

v.tr.
1. To make equal: equalized the responsibilities of the staff members.

2. To make uniform. spore contents. BT subfractions were prepared by carefully partitioning each BT product into supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material.

supernatant

the liquid lying above a layer of precipitated insoluble material. (particulate-free) and pellet (particulate-rich) fractions by centrifugation Centrifugation

A mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal (12,000 x g for 10 min at RT). Particulate-free filtrates (PFF PFF Progress & Freedom Foundation
PFF Preparing Future Faculty (training university teaching assistants)
PFF Page Fault Frequency
PFF Pre-Formed Fragmentation (type of ammunition projectile) ) were made by filtering (0.45 [micro]m pore size) the supernatants diluted to 10% (v/v) with phosphate-buffered saline (PBS PBS
in full Public Broadcasting Service

Private, nonprofit U.S. corporation of public television stations. PBS provides its member stations, which are supported by public funds and private contributions rather than by commercials, with educational, cultural, ). Alternatively, PFFs were first concentrated 20-fold by reverse osmosis for 6 hr at 4 [degrees] C. Semipurification of the PIB fractions was performed according to Thomas and Ellar (10) with the following modifications: 500 [micro]L aliquots of each BT product were diluted 2-fold and vigorously vortexed (5 min at RT) with 50 [micro]L sterile crushed glass to disrupt aggregates. After the discontinuous sucrose gradient centrifugation Sucrose gradient centrifugation is a type of centrifugation often used to purify enveloped viruses (with densities 1.1-1.2 g/cm³) and ribosomes, and also to separate cell organelles from crude cellular extracts. step (80,000 x g for 14 hr at 4 [degrees] C, using a Beckman SW50.1; Beckman Instruments, Mississauga, Ontario, Canada), the crystal-rich PIB layer was verified by SEM and protein analysis. Sucrose was removed by dilution with two volumes of ice-cold double distilled [H.sub.2]O and centrifugation. This purification procedure was repeated 3 times. Solubilization of PIB contents and conversion of pro-[Delta]-endotoxin (~ 132-137 kDa) to activated [Delta]-endotoxin (~ 60-67kDa) involved incubating either BT products or PIB-enriched fractions in 40 mM sodium carbonate (pH 10) and trypsin trypsin, enzyme that acts to degrade protein; it is often referred to as a proteolytic enzyme, or proteinase. Trypsin is one of the three principal digestive proteinases, the other two being pepsin and chymotrypsin. (0.1% w/v) at 37 [degrees] C (10). We used protein electrophoresis to monitor digestion, and we collected residual particulates, including all spores, by centrifugation followed by membrane filtration (0.2 [micro]m pore size). Equivalent dose was based on spore count and total protein of BT product.

Preparation of vegetative cell cultures and exoproteins. Spore outgrowth from BT products as well as from the controls, B. cereus (ATCC 14579; lot 90-07SV), B. subtilis (ATCC 6051; lot 91-11SV), and E. coli C600 (ATCC), were grown in Luria-Bertani (LB) broth at 37 [degrees] C for 6-18 hr. Alternatively, they were grown in Grace's insect cell medium or DMEM with or without human cells. Following enumeration 1. (mathematics) enumeration - A bijection with the natural numbers; a counted set.

Compare well-ordered.
2. (programming) enumeration - enumerated type. of colony-forming units (cfu) per milliliter milliliter /mil·li·li·ter/ (mL) (-le?ter) one thousandth (10-3) of a liter.

mil·li·li·ter
n. Abbr. (2), each culture was adjusted to a concentration equivalent to 10% (v/v) BT product (~ 3 x [10.sup.10] cfu/mL) with PBS. Cultures were partitioned into cell (pellet) and cell-free (supernatant) fractions by centrifugation (12,000 x g for 10 min at RT). The supernatants, or VCPs, were filter sterilized ster·il·ize
tr.v. ster·il·ized, ster·il·iz·ing, ster·il·iz·es
1. To make free from live bacteria or other microorganisms.

2. (0.22 [micro]m pore) before and after concentrating 1,000-fold by reverse osmosis (6 hr at 4 [degrees] C). We monitored VCP production from washed cells after cells were rapidly resuspended in the same volume of fresh culture medium and harvested at various times thereafter. We conducted various stability tests on VCP before it was tested with human cells. We inclubated aliquots of VCP (1 mL) at 0-100 [degrees] C for intervals from 10 sec to 48 hr. Samples were also subjected to freeze-thaw from -80 [degrees] C to 37 [degrees] C in 15 min cycles and treatment with proteases (trypsin at 0.25% w/v or proteinase proteinase /pro·tein·ase/ (pro´ten-as?) endopeptidase.

pro·tein·ase
n.
A protease that begins the hydrolytic breakdown of proteins usually by splitting them into polypeptide chains. K at 0.0001% w/v) for various time intervals at 37 [degrees] C. For control samples we used Grace's insect cell medium or DMEM treated in the same manner as the VCP. We used a series of molecular mass cut-off membranes (Centricon 10-100 kDa; Amicon, Beverly, MA, USA) and gel filtration (Sephadex G-150, 100, 50; Amersham Pharmacia Biotech, Baie d'Urfe, Quebec, Canada) to approximate the dynamic size and homogeneity of the VCP toxic constituent(s).

Bioindicator assays. Bioreduction or cell redox redox (rē`dŏks): see oxidation and reduction. activity, measured by MTT MTT 3-(4,5-Dimethylthiazol-2-Yl)-2,5-Diphenyltetrazolium Bromide
MTT Machine Tool Technology
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MTT Multi-Table Tournament (poker) (3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide; Sigma Chemical Co., St. Louis, MO, USA) and polypeptide analyses and immunodetection assays were conducted as described for insect cells (4,57). Electrophoretically separated polypeptides were stained with either 0.1% Coomassie Blue or silver nitrate. We obtained anti-actin (5 [micro]g/mL), anti-cyclin (5 [micro]g/mL), and anti-tubulin (2 [micro]g/mL) antibodies from Roche Diagnostics (Laval, Quebec, Canada). Other probes included anti-cry 1Ab and 1Ac antibodies (1:500 dilution; Agdia Inc., Elkhart, IN, USA), anti-glutathione-S-transferase (1:20 dilution; Cedarlane, Hornby, Ontario, Canada), and anti-heat shock proteins 60 (hsp60; 10 [micro]g/mL; Monosan, Am Uden, Netherlands) and 70 (hsp70; 11 [micro]g/mL; Sigma). Specificity was based on the polypeptide target size (diagnostic molecular mass) and the absence of cross-reaction with polypeptides from either BT products or vegetative B. thuringiensis cultures. In radio-labeling experiments, we incubated HT29 monolayers with [sup.35]S-methionine (8.5 [micro]Ci/L DMEM, methionine methionine (mĕthī`ənēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the L-stereoisomer appears in mammalian protein. free) in 30 min pulses before or during the dosing regime. At each end point, the supernatants containing any detached cells and cellular debris were transferred to microtubes and frozen at -80 [degrees] C or centrifuged (1,000 x g for 10 min) first to recover fully intact cells. Radiolabeled polypeptides were assessed by autoradiography Autoradiography

A photographic technique used to localize a radioactive substance within a solid specimen; also known as radioautography.

A photographic emulsion is placed in contact with the object to be tested and is left for several hours, days, or (Kodak X-Omat XAR-5; Sigma) after gels were dried and sprayed with radiosensitive ra·di·o·sen·si·tive
adj.
Sensitive to the action of radiation. Used especially of living structures.

ra fluor (EnHance; Dupont, Mississagua, Ontario, Canada). For quantification, X-ray films were exposed for varying durations at -80 [degrees] C to achieve optimal band resolution before densitometry densitometry /den·si·tom·e·try/ (den?si-tom´i-tre) determination of variations in density by comparison with that of another material or with a certain standard. (7).

Results

Cytotoxic effects of whole BT products. In preliminary studies, several human cell lines, as well as those derived from monkey, mouse, and sheep, were exposed to an array of dilutions of whole BT products or derivative fractions. The results from all of these assays, albeit extensive in detail, were nonetheless nearly identical, including those that compared the apical apical /ap·i·cal/ (ap´i-k'l) pertaining to an apex.

a·pi·cal
adj.
1. Relating to the apex of a pyramidal or pointed structure.

2. and basal surfaces of cell monolayers with semipermeable membranes which can separate human cells from actual contact with bacteria and PIB structures of BT products or derivatives. The key difference that distinguished between assaying cells in suspension culture and assaying cells configured as monolayers was the degree of difficulty in collecting data. The former necessitated additional steps to physically separate BT-related components from both undamaged and damaged cells and to monitor intermediate changes by microscopic methods. For these reasons, we chose to illustrate most of the salient data with experiments using one human cell monolayer mon·o·lay·er
n.
1. A film or layer one molecule thick formed at the interface between water and either oil or air by a substance such as a partially esterified fatty acid that contains both hydrophobic and hydrophilic groups in the same system.

As illustrated in Figure 1A with HT29 cells, quantification of bioreduction activity showed only marginal decreases ([is less than] 10%) as long as antibiotic was present, even when exposures were extended up to 24 hr. However, without antibiotic, the loss in bioreduction activity was essentially 100% with all doses [is greater than] 5 x [10.sup.-14]% BT product/target cell. In the dose range of [10.sup.-14] to 5 x [10.sup.-14]% BT product/target cell, a threshold response was seen with both Bti and Btk BT products. This threshold dose (Dt) response was generated by the presence of one spore per assay. Experiments involving short exposure intervals indicated that the earliest bioreduction changes began between 2 hr to 4 hr at doses [is greater than or equal to] [10.sup.-7]% BT product/target cell or ~ [10.sup.7] Dt. The results from several dose-time assays, conducted in experiments shown in Figure 1A, were used to derive dose-response times that correspond to target cell [LD.sub.50], referred to here as [tLD.sub.50]. Using this method, Bti and Btk BT products generated virtually identical [tLD.sub.50] values. The dose-response data (n = 30 separate experiments) using five different human cell systems are summarized in Figure 1B. The timing differences between suspension and monolayer-propagated cell types can be accounted for by the additional steps in the assay procedure required for cells in suspension.

[Figure 1 ILLUSTRATION OMITTED]

Studies on the changes of human cell morphology and bioreduction loss conducted over various exposure regimes established that loss of bioreduction corresponded directly with numbers of human cells exhibiting visible damage. For example, exposures of [10.sup.-7]% BT product/target cell (Figure 2A) resulted in a 50% loss in attached cells by 4.4 [+ or -] 0.3 hr and a corresponding loss in bioreduction capacity at 4.4 [+ or -] 0.4 hr (Figure 1B). Enumeration of the shed cells based on separate exposure assays (n = 20) revealed that 43 [+ or -] 12% of the cells had degraded beyond recognition as long as one spore was present per assay well and its outgrowth was permitted. Companion studies using SEM confirmed the dramatic changes between control (Figure 2B, C) and treated cells (Figure 2D, E). In addition to numerous vegetative cells adhering to the surfaces of the residual HT29 cells, the microvilli microvilli
(mī´krōvil´ē),
n.pl tiny hairlike processes that extend from the surface of many cells. They are usually so small as to be visible only with an electron microscope. of these cells were absent and none of the cells were actually intact (Figure 2E).

[Figure 2 ILLUSTRATION OMITTED]

Further investigations were made to establish the fate of cellular proteins by immunodetection. Because the results from the six proteins were very similar, examples of actin and cyclin cy·clin
n.
A class of proteins that fluctuate in concentration at specific points during the cell cycle and that regulate the cycle by binding to a kinase. (an exception) are shown to demonstrate derivation of half-lives of these proteins. As shown in Figure 3A-D A-D

Advance-Decline, or measurement of the number of issues trading above their previous closing prices less the number trading below their previous closing prices over a particular period. using data from [10.sup.-7]% BT product/target cell, the variation in half-life of cellular proteins was 4.7-5.5 hr. They correspond to the [tLD.sub.50] values derived from enumerating attached cells. The early drop in HT29 cyclin content may be unique, as other cell systems exhibited little or no expression of this isoform. Similar analysis of the shed cell fraction indicated that concentrations of all of the protein markers (including total protein) were underrepresented un·der·rep·re·sent·ed
adj.
Insufficiently or inadequately represented: the underrepresented minority groups, ignored by the government.  by at least 80%. This pattern of degradation of cellular protein was virtually identical to that seen in exposure regimes using the Bti-based commercial product.

[Figure 3 ILLUSTRATION OMITTED]

BT product particulate-free fractions. We assessed the cytotoxic contribution of the liquid PFF of BT products before and after micropore micropore,
n 1. microscopic pores created by enamel etching in order to increase sealant adhesion.
n 2. an organelle in certain protozoa that develops at the site of a damaged membrane. filtration (Figure 4). These fractions were free of spores and aggregates of any kind, as observed by phase-contrast microscopy, SEM, and incubation on LB agar plates. The polypeptide contents of BT products and PFFs (concentrated 10 times) are shown in Figure 4A. The most abundant polypeptides in Btk BT products were those corresponding to pro-[Delta]-endotoxin (132-134 kDa) and activated-[Delta]-endotoxin (60-67 kDa) pools. In the case of the Bti product, there was an additional polypeptide with a molecular mass of the CytA toxin (24-27 kDa) (10).

[Figure 4 ILLUSTRATION OMITTED]

The PFF was ~ 67% of whole Bti or Btk BT product volume, but it contained [is less than or equal to] 0.02% total BT protein (or 5 [micro]g/mL.) The Btk polypeptides measured 18, 34, 80, and [is greater than] 200 kDa, whereas those of Bti PFF measured 34 and 95 kDa. When either of these PFF sources was used in exposure assays, the bioreduction activity of human cells decreased, but as shown in Figure 4B, this occurred only with doses equivalent to [is greater than or equal to] [10.sup.-4]% BT product/target cell. This dose is ~ 1,000-fold over the BT product dose routinely used in other experiments (Figures 2 and 3). Comparisons of phase-contrast micrographs of HT29 cells exposed to PBS or Btk PFF (Figure 4C, D) revealed that treated cells remained attached during the 24-hr exposures and that they had lost tight cell-to-cell associations (junctions) compared to PBS-treated cells. Occasionally treated cells formed cell-cell fusions or syncytia (Figure 4F). In treatments with Bti PFF, entire monolayers detached within a 2-hr exposure interval (Figure 4G). However, these cells still exhibited tight junctions and redox activities (Figure 4H) comparable to PBS-treated cells (Figure 4E). Also, these cells could be replated and grown with a viability [is greater than] 95%, essentially comparable to that seen with trypsin (2.5 mg/mL) treatment, routinely used in the passage of cell monolayers.

Cytotoxic effects of parasporal inclusion bodies. We used discontinuous sucrose gradient centrifugation to enrich for PIB structures of BT products. The fractionation fractionation /frac·tion·a·tion/ (frak?shun-a´shun)
1. in radiology, division of the total dose of radiation into small doses administered at intervals.

2. of Btk products routinely gave five opaque particulate layers (bands), whereas the Bti product resulted in only four. Polypeptide analysis of these fractions indicated that the bulk of Btk [Delta]-endotoxin proteins (67kDa and 132 kDa) were found in fractions 3 and 4 (Figure 5A, fractions 3 and 4). However, SEM analysis revealed that fraction 4 contained the most PIBs (Figure 5B), representing a 9-fold increase over the original spore content. In addition, cuboidal cuboidal /cu·boi·dal/ (ku-boi´d'l) resembling a cube.

cuboidal,
adj See cuboid. crystals were frequently seen (about one per every four Btk spores). For Bti, fraction 3 had the highest content of polypeptide and spherelike PIBs (relative to spore number) (Figure 5C, fraction 3, and 5D). Solubilization of the PIB enrichments was accomplished by treatment with buffer, pH 10, and trypsin. Solubilized Btk fraction 4 (centrifuged and filtered) contained only the 63-67 kDa polypeptides (Figure 5A, lane 7), whereas, in addition to the 67 kDa polypeptide, the spore-rich pellet also contained spore-related products ~ 5-30 kDa and [is greater than] 200 kDa in size. The filtered supernatant of solubilized Bti fraction 3 (Figure 5C, lane 6) had both 22 and 27 kDa polypeptides, and the corresponding spore-rich pellet (lane 7) had the 78 kDa polypeptide but no 22 kDa constituent.

[Figure 5 ILLUSTRATION OMITTED]

As shown in Figure 6A, results were different when fractions enriched in intact PIBs and solubilized versions were exposed for 4 hr. Intact PIBs from either Bti or Btk sources registered little effect. However, the use of solubilized Btk PIB gave a linear response and, at doses of 100 [micro]g/mL, resulted in 30% loss of bioreduction activity. This dose is about 100 times greater than the highest dose of BT product routinely tested. Identical assays with solubilized Bti PIB initially followed the Btk profile, but then rapidly changed as its dose was increased (Figure 6A). These levels of cytotoxicity changed little (~ 5%) on retesting at 6 hr. In controls, HT29 cells were treated separately with carbonate buffer and trypsin. All of these treatments resulted in [is less than or equal to] 10% loss in bioreduction.

[Figure 6 ILLUSTRATION OMITTED]

We conducted experiments involving the measurement of cell proteins. Results with intact PIB treatments were the same as untreated controls. As shown in Figure 6B, actin levels and attached cells only gradually decreased as the dose of solubilized Btk-PIB or Bti-PIB was increased up to 100 [micro]g/mL. The loss of these two indicators was 30 [+ or -] 10 %. However, the corresponding SEM analysis revealed no obvious change in either morphology or volume of attached cells, and shed cells also appeared to be intact (35). Assuming a linear dose response, extrapolation (mathematics, algorithm) extrapolation - A mathematical procedure which estimates values of a function for certain desired inputs given values for known inputs.

If the desired input is outside the range of the known values this is called extrapolation, if it is inside then of the curves in Figure 6B would predict an [LD.sub.50] of 130-140 [micro]g/mL.

Experiments with a commercially available antibody probe considered specific for cry1Ab and 1Ac [Delta]-endotoxins (see "Materials and Methods") indicated that cultures of Btk spores produced detectable amounts of these polypeptides, but only at about 18 hr and up to at least 48 hr of culture (35). This expression profile corresponded favorably with the initial buildup of spores, but not with the cytotoxic activity produced by exposing human cells to BT product for only 4-8 hr in the absence of antibiotic. These data added to the certainty that the cytotoxicity observed from BT products was not attributable to either PIBs present within BT products or "second generation" PIBs generated from sporulated cultures.

Cytotoxicity of vegetative cells and their exoproducts. Exposures to intact or solubilized PIBs and the liquid, particulate-free fractions of BT products (Figures 4 and 6) caused little human cell damage as compared to that seen whenever spores were present and their outgrowth was not prevented by antibiotic. Further investigations revealed that there was a dependence on the presence of human cells for efficient vegetative cell and VCP production to occur from spores. Also, peak destruction of human cells occurred early during the buildup of vegetative cells, and this cytotoxicity (per microgram microgram /mi·cro·gram/ (µg) (mi´kro-gram) one millionth (10-6) of a gram.

mi·cro·gram
n.
Abbr. of total VCP) produced by either Btk or Bti cells exhibited a relative decrease as these cells entered sporulation phase and other proteins accumulated after approximately 18 hr. Experiments with a commercially available antibody probe considered specific for cry1Ab and 1Ac [Delta]-endotoxins (see "Materials and Methods") indicated that cultures of Btk spores produced detectable amounts of these polypeptides but only at about 18 hr and up to at least 48 hr of culture (35). This expression profile corresponded favorably with the initial buildup of spores (also seen for Bti), but not with the cytotoxic activity produced by exposing human cells to BT product for only 4-8 hr in the absence of antibiotic. These data add to the certainty that the cytotoxicity observed from BT products was not attributable to either PIBs present within BT products or "second generation" PIBs generated from sporulated cultures.

In the absence of human cells, spore outgrowth was found to be [is less than or equal to] 4% in either fresh DMEM or in medium conditioned for 8 or 24 hr with any of the human cell monolayers. These observations are in contrast to those using Graces' insect cell medium, which alone supports spore outgrowth at levels comparable to or better than in LB broth (2). However, in all types of media, where at least some spore outgrowth actually occurred, the VCP cytotoxicity levels were comparable if they were made relative to number of vegetative cells. To simplify our investigations, 8-hr outgrowths were mass-produced from BT products incubated in Graces' insect cell medium without FBS. The removal of FBS eliminates its masking of cell proteins during analysis. Tests showed that the absence of FBS shifted the Bti/Btk growth curves by ~ 2 hr, but otherwise had little or no effect on the level of VCP exocytolytic activity produced by either Btk or Bti sources. In addition, we removed fine particulate matter (spores, vegetative cells, cell wall debris, and potentially PIB) from culture supernatants by filter sterilization before concentrating and retesting supernatants. These steps also had little effect ([is less than] 5%) on the severity of the cytolytic response, but improved the storage qualities of VCP stockpiled at various stages of cultures harvest from 4 hr to 48 hr.

In 2-hr exposure regimes with Btk VCP from 8-hr cultures, we observed considerable cell damage as compared to control cells (Figure 7), but the overall damage was no different than that seen in exposures with BT product (Figure 2). In assays using VCP dilutions, there was a saturation effect at 0.5X to 1X VCP, as both doses generated similar [tLD.sub.50] values of 6-8 min. (Figure 7E). Based on the number of vegetative cells present at 8 hr, 0.5X VCP was estimated to be equivalent to approximately 1.4 x [10.sup.-7]% BT product (spores)/target cell. In parallel assays with 0.5X VCP, the average [tLD.sub.50] value predicted by loss of specific proteins and cell adhesion was 42 min for hsp 60 and hsp 73, 60 min for actin, and 90 min for loss of cell adhesion (Figure 7F). Corresponding analysis of the shed cell population indicated total cytolysis and an inconsistent loss of protein indicators (Figure 7F). In all of these assays, Bti VCP gave results similar to those of Btk VCP, if based on an equivalent number of Btk vegetative cells or the total Btk protein content.

[Figure 7 ILLUSTRATION OMITTED]

Further exposure tests using washed vegetative cells determined that an [LD.sub.50] required at least 1.5 hr of preincubation or at least one vegetative cell doubling to take effect. The addition of gentamicin also decreased the regenerated cytolytic activity by [is greater than] 90%. Also, based on total protein content per bacterial cell, VCP cytolytic activity harvested at later stages of culture decreased rapidly ([is greater than] 90% by 18-20 hr). These results show that the production of cytolytic factor(s) is likely dependent on the early growth phase and de novo synthesis De novo synthesis refers to the synthesis of complex molecules from simple molecules such as sugars or amino acids, as opposed to their being recycled after partial degradation. For example, de novo synthesis of nucleotides is an alternative to the salvage pathway. rather than on the simple release of presynthesized product(s).

VCP effects on human cell protein biosynthesis. We investigated possible effects of VCP on human cell protein synthesis by examining changes in the polypeptide composition of each human cell type used in time-course experiments of 0-24 hr exposure. These experiments involved protein staining (silver or Coomassie blue) and demonstrated that loss was not specific to any protein species (35). To detail early events, HT29 cells were pulsed with [sup.35]S-methionine at 30 min intervals over a 6-hr exposure period, using either PBS or 8-hr VCP at a dose equivalent to 1.4 x [10.sup.-7]% BT product/target cell. Resultant autoradiographs of [sup.35]S-labeled polypeptides (Figure 8B, C) permitted calibration of the changes in protein synthesis of attached cells. In control experiments, we detected [is greater than] 150 putative polypeptide products using various autoradiographic au·to·ra·di·o·graph
n.
An image recorded on a photographic film or plate produced by the radiation emitted from a specimen, such as a section of tissue, that has been treated or injected with a radioactively labeled isotope or that has absorbed or exposures. With VCP treatment, polypeptide synthesis was rapidly reduced without apparent bias for any abundant polypeptide species. The corresponding [tLD.sub.50] estimate for loss of [sup.35]S-methionine incorporation was [is less than or equal to] 15 min or approximately one-fourth to one-third the rate of loss of specific protein indicators (see "Cytotoxicity of vegetative cells and their exoproducts"). At the same time, the [sup.35]S label associated with cell shedding (Figure 8C) was [is less than] 7% that of control cells and soon reduced to background levels thereafter. This indicates a rapid shutdown of protein synthesis culminating in a less rapid, nonspecific degradation of various cellular proteins.

[Figure 8 ILLUSTRATION OMITTED]

VCP properties. Polypeptide analysis of VCP produced at various stages of spore outgrowth indicated considerable size heterogeneity, ranging from 5 kDa to [is greater than] 200 kDa. Tests conducted before and after crude fractionation of the nondenatured VCP, using selective membrane (pore size) filtration as well as gel and bead matricies (see "Materials and Methods"), indicated that the cytolytic constituent(s) was between 50 and 100 kDa in size. In terms of total protein, this activity was approximately 20 times higher in VCP harvested at 6-8 hr than at 18-24 hr when spores and cry products accumulate (see "VCP effects on human cell protein biosynthesis") (34). Neither Btk nor Bti VCP activity was affected by repeated freeze-thaw cycles (five 10-min cycles of -80 [degrees] C to 3 [degrees] C) and storage up to 3 years at -80 [degrees] C or -20 [degrees] C. However, the half-life of VCP activity decreased from 40 hr to 24 hr when samples were pretreated at 23 [degrees] C and 50 [degrees] C, respectively, and to [is less than or equal to] 5 min at 60 [degrees] C. This inactivation inactivation /in·ac·ti·va·tion/ (in-ak?ti-va´shun) the destruction of biological activity, as of a virus, by the action of heat or other agent. was nonreversible and was similar to a pretreatment pretreatment,
n the protocols required before beginning therapy, usually of a diagnostic nature; before treatment.

pretreatment estimate,
n See predetermination. with a broad-spectrum protease protease /pro·te·ase/ (pro´te-as) endopeptidase.

pro·te·ase
n.
Any of various enzymes, including the proteinases and peptidases, that catalyze the hydrolytic breakdown of proteins. (100 [micro]g/mL proteinase K) for [is less than] 2 hr at 37 [degrees] C. However, VCP activity was not affected by trypsin (0.025-0.25%, w/v), serine protease inhibitors, a chelating agent (0.1-10 mM EDTA EDTA: see chelating agents. ), and agents such as cholesterol (60 [micro]g/mL), nicotinamide adenine dinucleotide nicotinamide adenine dinucleotide and nicotinamide adenine dinucleotide phosphate: see coenzyme.

Nicotinamide adenine dinucleotide (NAD) (NAD NAD: see coenzyme. ; [is less than or equal to] 0.1 mM), and adenosine adenosine /aden·o·sine/ (ah-den´o-sen) a purine nucleoside consisting of adenine and ribose; a component of RNA. It is also a cardiac depressant and vasodilator used as an antiarrhythmic and as an adjunct in myocardial perfusion imaging triphosphate triphosphate /tri·phos·phate/ (tri-fos´fat) a salt containing three phosphate radicals.

tri·phos·phate
n.
A salt or ester containing three phosphate groups. ([is less than or equal to] 0.1 mM), which are suggested to inhibit or modify activities of B. cereus (18). In all cases, control tests with these agents (no VCP) resulted in losses of bioreduction of [is less than or equal to] 5%.

Exposures to VCPs from other bacterial species. Stocks of B. cereus, B. subtilis, and E. coli cells and their VCPs were prepared in the same manner as those derived from Btk and Bti spore outgrowths. The tests with B. cereus (spores or vegetative cells) showed that both biomass and VCP cytotoxic effects were comparable to those of Bti and Btk cells (Figure 9A-C A-C Air Conditioning ). In contrast, B. subtilis and E. coli produced only approximately 1% of the B. thuringiensis biomass (Figure 9A). The strong binding to human cells exhibited by B. subtilis and E. coli influences human cell MTT substrate utilization by either increasing or decreasing bioreduction activity in relation to untreated control cells (Figure 9B). In all cases, these negative changes could be blocked by gentamicin to arrest vegetative cell activity. After pooling and concentrating the VCPs from several experiments, we found that levels of some target cell bioindicators were greatly reduced, but only in the case of B. cereus VCP (Figure 9B, C).

[Figure 9 ILLUSTRATION OMITTED]

Discussion

Complexity of biopesticides and dose estimations. As compared to chemical pesticides, the details provided in material safety data sheets for biopesticides are unusually sparse and vague, considering the extent to which they are used and promoted for community and even household use. Recently we addressed some of these data gaps (2-5,7) by introducing sampling strategies and physical, biochemical, immunologic, and molecular genetic methods that should be applicable for assessing quality control and quantification of health effects and efficacy of these and other biotechnology products, including transgenic plant derivatives, intended for release into the environment. The data derived from the analysis of several BT products demonstrate that these products are inherently heterogeneous and impure im·pure
adj. im·pur·er, im·pur·est
1. Not pure or clean; contaminated.

2. Not purified by religious rite; unclean.

3. Immoral or sinful: impure thoughts. with respect to a defined active ingredient when compared to chemical counterparts.

The most common descriptors used by the industry for Btk- and Bti-based products in parallel calibrations are the international unit (IU) and the percentage of "active ingredient". The IU is essentially an arbitrary unit, reflecting a relative measure of insect larval larval

1. pertaining to larvae.

2. larvate.

larval migrans
see cutaneous and visceral larva migrans. death attributed to ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth.

in·ges·tion
n.
1. The act of taking food and drink into the body by the mouth.

2. of BT product (1,36-38). In terms of abundance, the two most consistent and dominant components of BT products that we have found are the spores, which in most cases actually exceed [10.sup.13]/L, and the PIB crystalloids, whose concentrations are equal to or often 25%-50% of the spore content (5,36). In the promotion of BT products, the "active ingredient" has been considered synonymous with [Delta]-endotoxins, encoded by various cry genes, whose presence or absence in plasmid form justifies the rationale for subspecies classification (6). However, the assumption that the sole toxic ingredient is equivalent to that reported from using laboratory-processed and purified [Delta]-endotoxins merits debate because in most cases the importance of controlling spore contamination and related effects was not recognized.

Given the complexity of current BT products, it is difficult to rationalize what either the IU or percent of "active ingredient" directly measures in the context of environmental applications (36-38). Our previous in vitro toxicology In vitro toxicology is the scientific analysis of the effects of toxic chemical substances on cultured bacteria or mammalian cells. In vitro (literally 'in glass') testing methods are employed primarily to identify potentially hazardous chemicals and/or to confirm tests with insect cells showed that spores played a major role as a toxic ingredient, requiring about the same time interval for septicaemia septicaemia or septicemia
Noun

an infection of the blood which develops in a wound [Greek sēptos decayed + haima blood]

septicemia, septicaemia to take place as for effects predicted from the in vivo breakdown of PIBs (4,7). In those experiments, the dose was expressed in terms of IU per target cell, where it was determined that 1 IU was equivalent to approximately 2,400 spores (2). For the baseline study of human cell effects presented here, all the data were expressed as percent of BT product per target cell. This format allows us to assess (or reassess at a later date) any subcomponent sub·com·po·nent
n.
A portion of a component, especially an electronic component; a subassembly. of these BT products as long as the concentration is known in relation to other known components (e.g., spores). This approach would also be useful for testing plant biotechnology products as fresh or dried powders. Further, by supplying appropriate parameters about the target cell or tissue/organoid assay system (e.g., number and types of cells in suspension per milliliter of culture medium or per square centimeter of surface), any manner of exposure unit can be derived. For our purposes, because of the abundance, hardiness, and likelihood of potential risk (13,37), we used the spore to estimate relative enrichment and dose equivalence of PIBs and also vegetative cells and their exoproducts. Thus, a typical aerial application potentially delivering approximately 3 x [10.sup.10] IU/hectare or approximately 300 IU/[cm.sup.2] (~ 7.2 x [10.sup.5] spores/[cm.sup.2]) (2,13,37) would equate to a dose of approximately 2.4 x [10.sup.-5]% BT product/[cm.sup.2] or [10.sup.-10]% BT product/target cell as tested in this study. Also, in relation to target insects, such a dose would be intermediate to those contained within the 52-84 [micro]m diameter BT droplets that gave maximum (optimal) larval mortality over a 1-week exposure interval (38). From this dose optimization and an approximation of the surface area of an insect larval midgut midgut /mid·gut/ (mid´gut) the region of the embryonic digestive tube into which the yolk sac opens and which gives rise to most of the intestines; ahead of it is the foregut and caudal to it is the hindgut. ([is less than] 0.013 [cm.sup.2]), the in vivo cell surface dose would be [is greater than or equal to] 1.5 x [10.sup.-12]% BT product/target cell, which falls within the range for human cell assays.

Toxicity of BT products and subcomponents in the absence and presence of antibiotic. In the absence of antibiotic, all doses from approximately 5 x [10.sup.-14]% to [10.sup.-5]% BT product/target cell were cytotoxic to all types of human cells tested. Detailed tests with serial dilutions of BT products indicated that the threshold dose would be approximately 5 x [10.sup.-14]% BT product/target cell. At this dose, the [tLD.sub.50] was approximately 16 hr, a time point corresponding to when a single spore (per assay well) has reached midexponential growth. Similarly, differences in spore contents of the various subfractions tested were found to account for the observed differences in lag time before dose-induced cell changes were observed. Thus, the no-observed-adverse-effect level (NOAEL NOAEL,
n ‘no-observed-adverse-effect-level,’ the maximum concentration of a substance that is found to have no adverse effects upon the test subject. ) of BT products and their subfractions would correspond to doses in which there were either no spores present or there was an inhibitor (antibiotic) present to block spore-associated activity. In the latter case, concerning whole BT products and their particulate-rich (pellet) and particulate-free (supernatant) fractions, the dose defining Dt or the NOAEL was shifted upward by a factor of [is greater than or equal to] [10.sup.9], which indicates that the most damage-causing agent(s) arises from viable spores within BT products. These results cannot be explained by contamination of these BT products with unrelated organisms (5,7).

The differential response between low and high doses of BT products (see summary Figure 1B) or of subcomponents with equivalent amounts of spores provides clues as to the mechanism of toxification at work. With low concentrations of spores, the lag time in toxic response per dose was similar to the regular shift (~ 40 min) in occurrence of early-to-middle vegetative cell production for each [log.sub.10] dilution step of Btk or Bti BT product at 37 [degrees] C (2). This indicates that at low doses ([is less than] [10.sup.-12]% BT product/target cell) the inherent number of spores, on conversion to vegetative cells, must produce several generations of cells in order to build up the critical amounts of toxic ingredient(s) necessary to kill [is greater than or equal to] 50% of the target cells present. However, with BT product doses in or above the optimized range used for aerial spray applications, the response times were essentially clustered ([tLD.sub.50] = 3.9-4.8 hr), indicating that the number of spores is already near or may exceed the number of vegetative cells needed (on conversion) to generate sufficient cytotoxic product(s). Our rough estimates indicate that the minimum number of vegetative cells required to produce a cellular [LD.sub.50] would be [is less than or equal to] 10% of the target cell concentration or approximately [10.sup.5] vegetative cells/mL of nutrient medium. In a nonmammalian environment, temperatures below the optimum growth range of 34-37 [degrees] C would retard the rate of vegetative cell amplification (septicaemia) and buildup of lytic lytic /lyt·ic/ (lit´ik)
1. pertaining to lysis or to a lysin.

2. producing lysis.

lyt·ic
adj.
1. Of, relating to, or causing lysis.

2. damage, thus significantly delaying uniformity of toxic response and death in insect target organisms (2,7,13,38).

Toxicity of activated [Delta]-endotoxin(s). The supernatant fraction (with antibiotic) and its filtered version were shown to be essentially nontoxic unless used at near full BT product strength. Aside from its coloration (usually brownish yellow), the supernatant (1X) fraction of either Bti or Btk BT product sources contained [is less than] 0.02% of the total protein content and only a few discernable polypeptides, which did not resemble constituents detected in PIB enrichments. Further, the Btk fraction failed to react with commercially prepared cry1Ab or 1Ac antibody probes (35), indicating that little or no "activated" [Delta]-endotoxin material may be present. After the BT product was concentrated to an equivalent Dt of [is greater than or equal to] [10.sup.10], the Btk and Bti supernatants caused multicell fusions and shedding, similar to that seen after treatment with a virus or polyethylene glycol (35,40). This shedding may be caused by trypsin-like protease activity, and the presence of such factors in BT products suggests a carryover of fermentation products as noted for [Beta]-lactamase (5,13). Because of their actual concentration in spray droplets, these fermentation residues may play a role in the variation of product efficacy and potential health effects (3,13).

Aside from the liquid and spore fractions, the only other major constituent of BT products is the rather heterogeneous collection of protease-sensitive amorphous and crystallike PIB particulates. The PIB structures are usually less abundant than spores (2,5), but in theory should be equal in amount (1,36). SEM and light microscope analyses with protein stains indicated that both types of particulates have protein as a major part of their composition. Because similar amorphic structures were also seen in Btk and Bti vegetative cell phase cultures (35), we suggest that the amorphic particulates are aggregates of exopolypeptides and possibly other culture residues. After treatment with a broad-substrate protease and detergent, [is greater than] 90% of the spores in BT products can be recovered free of protein, mainly those related to the pro-[Delta]-endotoxins and their cleavage products (2). However, in our experience using BT products and various purification methods for [Delta]-endotoxins (10,39,41-46), definitive, quantitative separation of amorphous and crystallike PIB particulates from each other, and from spores and other cellular debris, is not very realistic. When tested at concentrations up to 100 [micro]g/mL (~ 1.6 x [10.sup.-5]% BT product/target cell), exposures using either Bti or Btk PIB enrichments estimated to be 9-fold relative to spore content showed only transient changes (Figure 6) as long as antibiotic was present to control spore contamination (35). There were no distinct changes in cell morphology, and cell viability was [is greater than or equal to] 95% with subsequent changes of medium and cell passage. The lack of cytolysis with Bti PIB, which contains CytA protein (~ 10% of the total protein), indicates that it may be unavailable to interact with target cells as reported earlier (8).

Following PIB solubilization with trypsin treatment, we found that residual aggregates and spores could be effectively removed by microfiltration, as shown by the absence of bacterial colonies after culturing filtrates for 48 hr. With the Btk BT product, this approach resulted in the disappearance of 200 kDa and 132-134 kDa proteins and a marked increase in 63-67 kDa product (Figure 5A), consistent with a conversion of pro-[Delta]-endotoxin to "activated" [Delta]-endotoxin (1,6,10). The trypsin treatment of Bti BT product resulted in a similar pattern of polypeptide solubilization; its unique polypeptide profile may account for the differences in bioreduction response, which was not seen when either cell or actin content was assayed (Figure 6A, B). The dose-dependent changes using these two bioindicators for Bti and all three bioindicators for Btk indicate a crude linear response beginning at a dose of approximately 5[micro]g/mL (~ [10.sup.-6]% BT product/target cell) with an extrapolated [tLD.sub.50] of approximately 130-140 [micro]g/mL. This dose corresponds to approximately 2 x [10.sup.-5]% BT product/target cell or [is greater than or equal to] 4 x [10.sup.8] Dt, and suggests that Bti or Btk BT product-induced human cell toxicity is not caused by their PIB-related moieties. In support of this conclusion, VCP harvested from late Btk cultures ([is greater than] 18 hr) reacted to cry1Ab and 1Ac antibodies, but was 8-10 times less cytotoxic than VCP harvested from 6- or 8-hr cultures (35). Therefore it is doubtful that even a second generation of [Delta]-endotoxin production contributes much to the BT product toxification so far observed.

On examining previous studies that used [Delta]-endotoxin preparations derived from a variety of mechanical extraction methods, we observed that no precautions were taken (reported) to eliminate possible effects from spores or VCP carryover in [Delta]-endotoxin preparations before they were tested in various systems (10,39,41-43). Furthermore, these [Delta]-endotoxin preparations were not derived from commercial BT products. This is especially important because of the serious potential for VCP carry-over in batch cultures that would exaggerate the effects claimed for [Delta]-endotoxins. At present, Bti PIB cytotoxic effects have been reported for human erythrocytes, canine kidney fibroblasts Fibroblasts
A type of cell found in connective tissue; produces collagen.

Mentioned in: Skin Grafting (MDCK MDCK Madin-Darby Canine Kidney Cells (virus tissue culture) cells), mouse fibroblasts (L929 cells), primary pig lymphocytes, and mouse epithelial carcinoma cells (EC2, EC5 and EC6 cells) (8,10,44,45). Also, PIBs from noninsecticidal strains of B. thuringiensis have been shown to be lethal to leukemic T cells but not to normal T cells (46). These noncommercial sources were deemed toxic according to trypan blue uptake by mammalian cells ([LD.sub.50] = 10-80 [micro]g/mL in 30 min) and human erythrocytes ([LD.sub.50] = 1-2 [micro]g/mL in 60 min), but only if they were pretreated at pH 10-10.5 with trypsin (46). In either case, the morphologic changes (e.g., cell rounding, swelling, membrane blebbing, and lysis lysis /ly·sis/ (li´sis)
1. destruction or decomposition, as of a cell or other substance, under influence of a specific agent.

2. mobilization of an organ by division of restraining adhesions.

3. ) were about the same. In our investigations, an [LD.sub.50] of approximately 130-140 [micro]g/mL was predicated by assays with PIB [Delta]-endotoxin-related proteins from Bti and Btk BT product sources. However, these same effects are caused by VCP from Bti, Btk, and B. cereus vegetative cells, suggesting that VCP components may have been included in the culture residues used to produce PIBs for earlier work.

VCP effects of Btk, Bti, B. cereus, and related bacteria. Experiments with vegetative cells resulting from spore outgrowth demonstrated that the most toxic substance(s) was released into the surrounding medium soon after spores germinated and began proliferating. Use of VCP instead of BT products, but at an equivalent dose, reduced the exposure time seen with BT products by 30-fold or more. Further study of VCP production is in order, but we know that it can be generated in bacterial culture broth as well as in insect and human cell media, using a range of temperatures from approximately 15 [degrees] C and up to 45 [degrees] C (35). The marked reduction of B. thuringiensis proliferation in fresh human cell medium (DMEM) or in medium conditioned by preincubation with human cells indicates that a direct interaction with human cells is probably necessary for stimulation of B. thuringiensis growth and possibly VCP production. Also, low VCP concentrations (Figure 7E) induced an initial stimulation in target cell bioreduction activity. Because a very similar stimulation was observed in human and insect cell exposures to ionophore ionophore /ion·o·phore/ (i´on-ah-for?) any molecule, as of a drug, that increases the permeability of cell membranes to a specific ion.

i·on·o·phore
n. A23187 (35), the transient increase in bioreduction could have resulted from cell membrane alterations allowing an increased uptake of tetrazolium (MTT) substrate into cells and/or a stimulation of membrane-coupled electron transport at different intracellular sites (7,47).

We used strains of spore-forming B. cereus and B. subtilis and a gram-negative, nonpathogenic strain of E. coli to investigate the possibility that the cytotoxic effects produced by Btk or Bti vegetative cells could also be produced by other bacteria. The B. cereus strain is used in standard antibiotic testing (7). Polymerase chain reaction-DNA hybridization hybridization /hy·brid·iza·tion/ (hi?brid-i-za´shun)
1. crossbreeding; the act or process of producing hybrids.

2. molecular hybridization

3. assays using six different genes indicated that Bti and Btk spores and this B. cereus strain share common sequences (13), whereas B. subtilis is distantly related. The damage generated from B. cereus in the absence of antibiotic was remarkably the same as that seen with Btk and Bti. However, B. subtilis and E. coli had little or no effect on target cells in terms of morphology and capacity for passage without appreciable cell loss. Also, no toxic effects were observed with their VCPs (Figure 9C), even after their protein contents were concentrated to be roughly equivalent to that of VCP from Bti, Btk, and B. cereus. Unlike B. cereus (and Bti and Btk), neither B. subtilis nor E. coli grew well in human culture medium (DMEM), with or without human cells present. The B. subtilis results are similar to the minimal effects seen when Vero cells (from kidney of African green monkey) were treated 2 hr with culture supernatants from B. subtilis isolated from Lancashire cotton mills (48). Aside from target cell binding, the in vitro results with nonpathogenic E. coli are in contrast to those from E. coli strains classed as enterohemorragic (e.g., serogroup O157:H7), enteroinvasive (029:NM), or enterotoxigenic en·ter·o·tox·i·gen·ic
adj.
Of or being an organism containing or producing an enterotoxin.

Enterotoxigenic (C1845), which showed microvillar destruction (effacement effacement /ef·face·ment/ (e-fas´ment) the obliteration of features; said of the cervix during labor when it is so changed that only the external os remains. ), erythrocyte erythrocyte (ĭrĭth`rəsīt'): see blood.

erythrocyte
or red blood cell or red blood corpuscle

Blood cell that carries oxygen from the lungs to the body tissues. agglutination agglutination, in biochemistry
agglutination, in biochemistry: see immunity.

agglutination, in linguistics
agglutination, in linguistics: see inflection. , and actin rearrangements or depolymerization depolymerization /de·po·lym·er·iza·tion/ (de?po-lim?er-i-za´shun) the conversion of a polymer into its component monomers.

depolymerization (27,49). Similar effects were observed when we used VCP from Btk, Bti, and B. cereus sources and also when others used 20-fold concentrated VCP (culture filtrate filtrate /fil·trate/ (fil´trat) a liquid or gas that has passed through a filter.

fil·trate
v.
To put or go through a filter.

n. ) of Bacteriodes fragilis produced in brain-heart infusion medium for 48 hr at 37 [degrees] C in 1-hr assays with HT29 (C1 clone line) (33). Also, screening assays for B. cereus diarrheal enterotoxin enterotoxin /en·tero·tox·in/ (en´ter-o-tok?sin)
1. a toxin specific for the cells of the intestinal mucosa.

2. a toxin arising in the intestine.

3. with culture filtrates (VCP) from over 30 isolates revealed gross morphology changes such as monolayer disruption and cell shrinkage in assays with McCoy cells (unknown mouse tissue) and Vero cells, progressing over a period of 24 hr (19,50). In a more recent assay involving Chinese hamster ovary cells to assess toxicity of 18-hr culture filtrates from several different Bacillus species, including a putative B. thuringiensis strain (isolated from cheese and raw milD, Beattie and Williams (51) showed a 90% loss in bioreduction activity by 72 hr. Compared to these earlier assays that used considerably longer exposure times (overnight to days), the VCPs from Btk and Bti and also from the B. cereus strain that we tested were apparently very toxic. Further side-by-side experiments are needed to survey the toxic constituent(s) of various B. cereus strains in relation to various B. thuringiensis subspecies and the classical view of B. cereus enterotoxins. In related work, we detected enterotoxin gene sequences in the DNA DNA: see nucleic acid.

DNA
or deoxyribonucleic acid

One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. from spores of all BT products, and showed that VCP contains an immunologically related component which uses two different commercially available Bacillus enterotoxin test kits (13,35).

Possible candidates for the B. thuringiensis VCP cytotoxin cytotoxin /cy·to·tox·in/ (si´to-tok?sin) a toxin or antibody having a specific toxic action upon cells of special organs.

cy·to·tox·in
n. . Compared to [Delta]-endotoxin work, much less is known about other toxic substances that may contribute to B. thuringiensis toxicity, specifically components from the fermentation stage of the BT production process. Our experiments demonstrate that the most toxic substance(s) is a proteinaceous, thermolabile thermolabile /ther·mo·la·bile/ (-la´bil) easily affected by heat.

ther·mo·la·bile
adj.
Subject to destruction, decomposition, or great change by moderate heating. product common to Bti, Btk, and B. cereus cells. Early toxic effects included rapid loss in reductive re·duc·tive
adj.
1. Of or relating to reduction.

2. Relating to, being an instance of, or exhibiting reductionism.

3. Relating to or being an instance of reductivism. capacity and protein synthesis. These effects were reversible only by rapidly replacing the VCP with fresh medium within the first 5 min of exposure; by 10 min of exposure, the toxic effects resulted in cell detachment, lysis, and internal protein degradation (35). Possible candidates considered so far are ADP-ribosylating toxins, B. cereus-like enterotoxins, phophatidylinositol-specific phospholipase C (PI-PLC), and vegetative insecticidal proteins (52). The [sup.35]S-methionine experiments clearly show that an early step in toxification is the cessation of protein synthesis, which is similar to that seen with other human (and animal) cells with ADP-ribosylating toxins of Corynebacterium Corynebacterium /Co·ry·ne·bac·te·ri·um/ (-bak-ter´e-um) a genus of bacteria including C. ac´nes, a species present in acne lesions, C. diphthe´riae, the etiologic agent of diphtheria, C. diptheria and Vibrio vibrio

Any of a group of aquatic, comma-shaped bacteria in the family Vibrionaceae. Some species cause serious diseases in humans and other animals. They are gram-negative (see cholera, exotoxin exotoxin /exo·tox·in/ (ek´so-tok?sin) a potent toxin formed and excreted by the bacterial cell, and free in the surrounding medium. A of Pseudomonas aeruginosa, Shiga toxin of Shigella shigella

Any of the rod-shaped bacteria that make up the genus Shigella, which are normal inhabitants of the human intestinal tract and can cause dysentery, or shigellosis. Shigellae are gram-negative (see gram stain), non-spore-forming, stationary bacteria. S. flexnuri, and the Shiga-like toxin of E. coli (53). These ribosylating toxins transfer the ADP-ribose moiety moiety: see clan. to eukaryotic eukaryotic /eu·kary·ot·ic/ (u?kar-e-ot´ik) pertaining to a eukaryon or to a eukaryote.

eukaryotic

pertaining to eukaryosis.

eukaryotic cells
see cell. host target proteins, such as elongation factor 2 [Alpha], to render them inactive (54). Our most recent studies indicate that a 45 kDa constituent of the VCP can be covalently labeled using [sup.32]P-NAD as substrate (35), a characteristic of some ADP-ribosylating toxins. In other studies we tested B. thuringiensis PI-PLC and concluded that the lytic effects are likely the result of another lipase lipase (lī`pās), any enzyme capable of degrading lipid molecules. The bulk of dietary lipids are a class called triacylglycerols and are attacked by lipases to yield simple fatty acids and glycerol, molecules which can permeate the membranes (52).

Implications for Human Health

Before our studies, a handful of case reports described skin irritation and infections after spray applications (55-57). The literature also indicates complications in immunologically impaired individuals linked to exposure to B. thuringiensis organisms (15,17,20,55-57). Further, B. cereus-type ailments can be confused with B. thuringiensis-induced poisoning because B. thuringiensis is routinely harvested from common foods such as milk, pasta, and bread (14,20,57). More recently there has been a well-documented case report of B. thuringiensis-mediated soft-tissue infection and necrosis, along with experimental evidence of pathogenicity, in both immune compromised and, more importantly, normal mice (17,18). The results presented here show for the first time that, at the human cell level, both Bti and Btk BT products can generate potent B. cereus-like toxic effects. To go beyond the scale seen in BT product immunologic sensitization reactions of field workers (3), a sustained infection would be needed to generate sufficient amounts of vegetative cells and their cytolytic exoproducts. What is lacking is a critical understanding of conditions that might concern high-risk groups, those unable to manage microbe microbe /mi·crobe/ (mi´krob) a microorganism, especially a pathogenic one such as a bacterium, protozoan, or fungus.micro´bialmicro´bic

mi·crobe
n. invasions through impaired immune responses and other physical-chemical clearance mechanisms manifested during development (the very young, the elderly) and in specific genetic disorders (e.g., cystic fibrosis). To justify urban usage of spore-containing BT products, earlier claims of no health effects need to be addressed in terms of current medical views and practices (3,13). This includes testing health effects of vegetative cell exoproducts such as CryV (58) and Vip3A (59), which are proposed for use as novel insecticides.

REFERENCES AND NOTES

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(2.) Seligy VL, Beggs RW, Rancourt JM, Tayabali AF. Quantitative bioreduction assays for calibrating spore content and viability of commercial Bacillus thuringiensis insecticides. J Ind Microbiol Biotechnol 18:370-378 (1997).

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NATO
in full North Atlantic Treaty Organization

International military alliance created to defend western Europe against a possible Soviet invasion. ASI ASI,
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[L.] grain; very small particles. PE, Bresciani J, Torregrossa MV, Eilenberg J, Valentino L. Characterization of Bacillus thuringiensis isolated from infections in burn wounds. FEMS Immunol Med Microbiol 18:47-53 (1997).

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se·ro·type
n.
See serovar.

v. H34) superinfection superinfection /su·per·in·fec·tion/ (-in-fek´shun) a new infection occurring in a patient having a preexisting infection, such as bacterial superinfection in viral respiratory disease or infection of a chronic hepatitis B carrier with : case report and experimental evidence of pathogenicity in immunosuppressed Immunosuppressed
A state in which the immune system is suppressed by medications during the treatment of other disorders, like cancer, or following an organ transplantation.

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adj.
Having the normal bodily capacity to develop an immune response following exposure to an antigen.

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gastroenteritis

Acute infectious syndrome of the stomach lining and intestines. Symptoms include diarrhea, vomiting, and abdominal cramps. outbreak investigation. Lett Appl Microbiol 21:103-105 (1995).

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Lis·te·ri·a
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(24.) Cersini A, Salvia salvia: see sage.

salvia

Any of about 700 species of herbaceous and woody plants that make up the genus Salvia, in the mint family. Some members (e.g., sage) are important as sources of flavouring. AM, Bernardini ML. Intracellular multiplication and virulence of Shigella flexneri auxotrophic auxotrophic /auxo·tro·phic/ (awk?so-tro´fik)
1. requiring a growth factor not required by the parental or prototype strain; said of microbial mutants.

2. mutants. Infect Immun 66:549-557 (1998).

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the predominant cells in the small intestinal mucosa. They are tall columnar cells and responsible for the final digestion and absorption of nutrients, electrolytes and water. and mucus-secreting cell-lines in culture. Appl Environ Microbiol 58:2034-2039 (1992).

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Chemicals made by the cells that act on other cells to stimulate or inhibit their function. Cytokines that stimulate growth are called "growth factors. is expressed in human colon epithelial cells in response to bacterial invasion. J Clin Invest 95:55-65 (1995).

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pertaining to mitochondria.

mitochondrial RNAs
a unique set of tRNAs, mRNAs, rRNAs, transcribed from mitochondrial DNA by a mitochondrial-specific RNA polymerase, that account for about 4% of the total cell RNA that RNA RNA: see nucleic acid.

RNA
in full ribonucleic acid

One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic : effects of trehalose tre·ha·lose
n.
A sweet-tasting, crystalline disaccharide, C₁₂H₂₂O₁₁, found in trehala and in many fungi. on cell growth and maturation. Cancer Res 52:3718-3725 (1992).

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very small drop of fluid.

droplet nuclei
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1. Producing a display of lustrous, rainbowlike colors: an iridescent oil slick; iridescent plumage.

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adj.
Destructive to red blood cells; hematolytic.

Hemolytic
Referring to the destruction of the cell membranes of red blood cells, resulting in the release of hemoglobin from the damaged cell. and mosquitocidal protein toxin of Bacillus thuringiensis subsp, darmstadiensis 73-E10-2. J Bacteriol 171:3060-3067 (1989).

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(47.) Berridge MV, Tan AS, McCoy KD, Wang R. The biochemical and cellular basis of cell proliferation assays that use tetrazolium salts. Biochemica 4:14-19 (1996).

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(49.) Steiner TS, Lima AA, Nataro JP, Guerrant RL. Entero-aggregative Escherichia coli produce intestinal inflammation and growth impairment and cause interleukin-8 release from intestinal epithelial cells. J Infect Dis 177: 88-96 (1998).

(50.) Hostacka A, Kosiarova A, Majtan V, Kohutova S. Toxic properties of Bacillus cereus strains isolated from different foodstuffs foodstuffs npl → comestibles mpl

foodstuffs npl → denrées fpl alimentaires

foodstuffs food npl → . Zbl Bakt Int J Med M 276:303-312 (1992).

(51.) Beattie SH, Williams AG. Detection of toxigenic toxigenic /tox·i·gen·ic/ (tok?si-jen´ik)
1. producing or elaborating toxins.

2. derived from or containing toxins.

tox·i·gen·ic
adj.
Producing a poison; toxicogenic. strains of Bacillus cereus and other Bacillus spp. with an improved cytotoxicity assay. Lett Appl Microbiol 28:221-225 (1999).

(52.) Tayabali AF, Beggs RW, Rancourt JM, Seligy VL PI-PLC-like activity in cultures of human and insect cells exposed to commercial Bacillus thuringiensis-based products. Cell Mol Biol 42:S63 (1996).

(53.) Menestrina G. Electrophysiological methods for the study of toxin-membrane interaction. In: Sourcebook of Bacterial Protein Toxins (Alouf JE, Freer JH, eds). London:Academic Press Ltd., 1991;215-276.

(54.) Krueger KM, Barbieri JT. The family of bacterial ADP-ribosylating exotoxins. Clin Microbiol Rev 8:34-47 (1995).

(55.) Bender C, Peck S. Health symptoms reported during BTK spraying spring 1994 in the capital regional district. Environ Health Rev 40:42-44 (1996).

(56.) Noble MA, Riben PD, Cook GJ. Microbiological and Epidemiological Surveillance Programme to Monitor the Health Effects of Foray 48B Btk Spray. Victoria, British Columbia, Canada:Ministry of Forests, Province of British Columbia, 1992.

(57.) Samples JR, Buettner H. Corneal ulcer caused by a biological insecticide (Bacillus thuringiensis). Am J Ophthalmol 95:258-260 (1983).

(58.) Estruch JJ, Warren GW, Mullins MA, Nye GJ, Craig JA, Koziel MG. Vip3A, a novel Bacillus thuringiensis vegetative insecticidal protein with a wide spectrum of activities against lepidopteran insects. Proc Natl Acad Sci USA 93:5389-5394 (1996).

(59.) Kostichka K, Warren GW, Mullins M, Mullins AD, Craig JA, Koziel MG, Estruch JJ. Cloning of a cryV-type insecticidal protein gene from Bacillus thuringiensis: the cryV-encoded protein is expressed early in stationary phase. J Bacteriol 178:2141-2144 (1996).

Address correspondence to V.L Seligy, Mutagenesis mutagenesis /mu·ta·gen·e·sis/ (mu?tah-jen´e-sis)
1. the production of change.

2. the induction of genetic mutation.

mu·ta·gen·e·sis
n. pl. Section, Environmental and Occupational Toxicology Division, Environmental Health Centre, PL 0308A, Health Canada, Ottawa, Ontario, Canada K1A 0L2. Telephone: (613) 952-5852. Fax: (613) 941-4768. E-mail: vern_seligy@hc-sc.gc.ca

We thank D. Blakey, G. Douglas, D. Desaulniers, P. Shwed, and G. Coleman for reviewing the manuscript and providing helpful advice. Assistance in scanning electron microscopy analysis was provided by C. Chuang, Carleton University Centre for Electron Microscopy.

This work was supported by Health Canada (EHD EHD

epizootic hemorrhagic disease. intramural intramural /in·tra·mu·ral/ (-mu´r'l) within the wall of an organ.

in·tra·mu·ral
adj.
Occurring or situated within the walls of a cavity or organ. research program), Industry Canada (National Biotechnology and Canadian Biotechnology Strategy Funds), and Natural Sciences and Engineering Research Council The Natural Sciences and Engineering Research Council (NSERC) is a Canadian government division that provides grants for research in the natural sciences and in engineering. In 2004-2005, it will invest CAD $850 million in university-based research and training. (to V.L.S).

Received 7 January 2000; accepted 2 May 2000.

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