Diesel Exhaust Particles Suppress Macrophage Function and Slow the Pulmonary Clearance of Listeria monocytogenes in Rats.In this study, we tested the hypothesis that exposure to diesel exhaust particles (DEP DEP Deposit DEP Deputy DEP Department of Environmental Protection DEP Dependent DEP Departure DEP Depot DEP Deposition DEP deployed (US DoD) DEP Data Execution Prevention (computer security) ) may increase susceptibility of the host to pulmonary infection. Male Sprague-Dawley rats received a single dose of DEP (5 mg/kg), carbon black (CB, 5 mg/kg), or saline intratracheally. Three days later, the rats were inoculated intratracheally with ~5,000 Listeria Listeria /Lis·te·ria/ (lis-ter´e-ah) a genus of gram-negative bacteria (family Corynebacterium); L. monocyto´genes causes listeriosis. Lis·te·ri·a n. monocytogenes and sacrificed at 3, 5, and 7 days postinfection, and we determined the number of viable Listeria in the left lobe of lungs. The remaining lungs underwent bronchoalveolar lavage Bronchoalveolar lavage A way of obtaining a sample of fluid from the airways by inserting a flexible tube through the windpipe. Used to diagnose the type of lung disease. (BAL (1) (Basic Assembly Language) The assembly language for the IBM 370/3000/4000 mainframe series. (2) (Branch And Link) An instruction used to transfer control to another part of the program. BAL - Basic Assembly Language ) and the retrieved BAL cells were identified and counted. Luminol-dependent chemiluminescence chemiluminescence /chemi·lu·mi·nes·cence/ (kem?i-loo?mi-nes´ens) luminescence produced by direct transformation of chemical energy into light energy. , a measure of reactive oxygen species reactive oxygen species, n molecules and ions of oxygen that have an unpaired electron, thus rendering them extremely reactive. Many cellular structures are susceptible to attack by ROS contributing to cancer, heart disease, and cerebrovascular disease. (ROT) formation, generated by BAL cells was monitored and the levels of nitric oxide nitric oxide or nitrogen monoxide, a colorless gas formed by the combustion of nitrogen and oxygen as given by the reaction: energy + N2 + O2 → 2NO; m.p. −163.6°C;; b.p. −151.8°C;. and tumor necrosis factor tumor necrosis factor n. Abbr. TNF A protein that is produced in the presence of an endotoxin, especially by monocytes and macrophages, is able to attack and destroy tumor cells, and exacerbates chronic inflammatory diseases. (TNF TNF abbr. tumor necrosis factor TNF, n an abbreviation for tumor necrosis f )-[Alpha] produced by macrophages Macrophages White blood cells whose job is to destroy invading microorganisms. Listeria monocytogenes avoids being killed and can multiply within the macrophage. in culture were determined. At 7 days postinfection, we excised the lung-draining lymph nodes Lymph nodes Small, bean-shaped masses of tissue scattered along the lymphatic system that act as filters and immune monitors, removing fluids, bacteria, or cancer cells that travel through the lymph system. and phenotyped the lymphocyte subpopulations. Exposure of rats to DEP, but not to CB, decreased the clearance of Listeria from the lungs. Listeria-induced generation of luminol-dependent chemiluminescence by pulmonary phagocytes decreased by exposure to DEP but not CB. Similarly, Listeria-induced production of NO by alveolar macrophages was negated at 3, 5, and 7 days after inoculation in DEP-exposed rats. In contrast, CB exposure had no effect on Listeria-induced NO production at 3 days after infection and had a substantially smaller effect than DEP at later days. Exposure to DEP or CB resulted in enlarged lung-draining lymph nodes and increased the number and percentage of [CD4.sup.+] and [CD8.sup.+] T cells T cells A type of white blood cell produced in the thymus gland. T cells are an important part of the immune system. Infants born with an underdeveloped or absent thymus do not have a normal level of T cells in their blood. . These results showed that exposure to DEP decreased the ability of macrophages to produce antimicrobial oxidants in response to Listeria, which may play a role in the increased susceptibility of rats to pulmonary infection. This DEP-induced suppression is caused partially by chemicals adsorbed onto the carbon core of DEP, because impaired macrophage macrophage /mac·ro·phage/ (mak´ro-faj) any of the large, mononuclear, highly phagocytic cells derived from monocytes that occur in the walls of blood vessels (adventitial cells) and in loose connective tissue (histiocytes, phagocytic function and decreased Listeria clearance were not observed following exposure to CB. Key words: alveolar macrophages, diesel exhaust particles, Listeria monocytogenes, lung clearance, lung-draining lymph nodes, reactive oxidative species, tumor necrosis tumor necrosis Death of tumor tissue, a common event in aggressive CAs in which the tumor rapidly outgrows its blood supply, resulting in tumor cell death. Cf Apoptosis. factor-[Alpha], T cells. Environ Health Perspect 109:515-521 (2001). [Online 11 May 2001] http://ehpnet1.niehs.nih.gov/docs/2001/109p515-521yang/abstract.html Numerous epidemiologic studies have consistently shown an association between the elevated particulate matter in ambient air and the increased respiratory mortality and morbidity in certain groups of people (1,2), evidenced as reduced lung function (3) and increased hospitalization and outpatient visits caused by problems such as asthma or pneumonia (4,5). Diesel exhaust particles (DEP), the particles with diameters [is less than] 2 [micro]m, are a major component of particulate air pollution in the most industrialized in·dus·tri·al·ize v. in·dus·tri·al·ized, in·dus·tri·al·iz·ing, in·dus·tri·al·iz·es v.tr. 1. To develop industry in (a country or society, for example). 2. urban areas. These fine respirable respirable /res·pir·a·ble/ (re-spir´ah-b'l) 1. suitable for respiration. 2. small enough to be inhaled. res·pi·ra·ble adj. 1. Fit for breathing, as air. particles can remain airborne for long periods of time and deposit in great numbers deeply in the lungs, where they may cause pulmonary damage. Diesel particulate levels in mines have been reported as high as 2 mg/[m.sup.3] (6). Because miners are commonly exposed to much higher levels of DEP than those found in ambient air, effects on pulmonary susceptibility of infection is a concern in these workers. Numerous reports have demonstrated that DEP may sensitize sen·si·tize v. To make hypersensitive or reactive to an antigen, such as pollen, especially by repeated exposure. the host immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. , e.g. the adjuvant adjuvant /ad·ju·vant/ (aj?dbobr-vant) (a-joo´vant) 1. assisting or aiding. 2. a substance that aids another, such as an auxiliary remedy. 3. effect of DEP on an increased antigen-induced production of immunoglobulin E immunoglobulin E n. Abbr. IgE The class of antibodies produced in the lungs, skin, and mucous membranes and responsible for allergic reactions. . Such 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. may enhance the incidence and severity of asthma and of collagen-induced arthritis, an autoimmune disease (7-9). On the other hand, reports also suggest that DEP may suppress the host immunity. Early studies have shown that exposure of animals to DEP may retard mucociliary clearance (10), depress interferon production in response to viral infection (11), and enhance influenza multiplication within the lungs (12). Several studies have shown that the phagocytic phag·o·cyt·ic adj. 1. Of or relating to phagocytes. 2. Of, relating to, or characterized by phagocytosis. phagocytic emanating from or pertaining to phagocytes. activity of macrophages is suppressed after exposure to DEP (13-15). In addition, we have also demonstrated that in vitro or in vivo exposure of alveolar macrophages (AM) to DEP depresses their responsiveness to lipopolisaccharide (LPS LPS - Sets with restricted universal quantifiers. ["Logic Programming with Sets", G. Kuper, J Computer Sys Sci 41:44-64 (1990)]. ), evidenced as a decrease in LPS-stimulated secretion of tumor necrosis factor (TNF)-[Alpha] and interleukin (IL)-1 after exposure to DEP (16,17). Among the most important cells in the innate immune system
Small air sacs or cavities in the lung that give the tissue a honeycomb appearance and expand its surface area for the exchange of oxygen and carbon dioxide. sterile (15). Many studies also demonstrate that macrophages act as an important modulator Modulator Any device or circuit by means of which a desired signal is impressed upon a higher-frequency periodic wave known as a carrier. The process is called modulation. The modulator may vary the amplitude, frequency, or phase of the carrier. in initiating and developing sequential acquired immune reactions (19). Microorganisms or particles can be phagocytosed by AM and cleared from the lungs by the mucociliary escalator system or translocated into the internal milieu, such as the local lymphoid lymphoid /lym·phoid/ (lim´foid) resembling or pertaining to lymph or tissue of the lymphoid system. lym·phoid adj. Of or relating to lymph or the lymphatic tissue where lymphocytes are formed. system. DEP are found in the local lung-draining lymph nodes after pulmonary exposure (20,21). Because lymphocytes are intimately involved in defense against bacterial, fungal, viral, and toxic assaults, these translocated particles may affect the lymphatic lymphatic /lym·phat·ic/ (lim-fat´ik) 1. pertaining to lymph or to a lymphatic vessel. 2. a lymphatic vessel. lym·phat·ic adj. arm of the host immune system. In this study, we investigated the possible role of macrophages in DEP-induced immune suppression using a rat lung Listeria monocytogenes infection model. Listeria is a gram-positive, facultative intracellular pathogen. Resolution of Listeria infection requires both the 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. innate immune system, including macrophages, neutrophils neutrophils (ner·ō·trōˑ·filz), n.pl white blood cells with cytoplasmic granules that consume harmful bacteria, fungi, and other foreign materials. , and natural killer cells natural killer cells, n.pl lymphocytes that are part of innate immunity that kill foreign substances and abnormal tissues. Decreased number or activi-ty has been linked to a number of diseases, including AIDS, cancer, chronic fatigue syndrome, , and the specific T-cell--mediated immunity (22). Actually, macrophages, through their secreted cytokines Cytokines Chemicals made by the cells that act on other cells to stimulate or inhibit their function. Cytokines that stimulate growth are called "growth factors. , are a critical link between these two systems (23). Experimental listeriosis Listeriosis Definition Listeriosis is an illness caused by the bacterium Listeria monocytogenes that is acquired by eating contaminated food. The organism can spread to the blood stream and central nervous system. has been a widely accepted method for studying T-cell--mediated macrophage activation (24). Several studies have used the rat Listeria infection model to assess pulmonary host defense mechanisms (25-22). Therefore, we use this animal model to test the hypothesis that exposure to DEP suppresses macrophage function, alters T-cell--mediated immunity, and increases the susceptibility of host-to-lung infection. To evaluate the role of various organic chemicals associated with DEP in this toxic effect, we also exposed rats to carbon black (CB)--particles having a carbonaceous car·bo·na·ceous adj. Consisting of, containing, relating to, or yielding carbon. carbonaceous Adjective of, resembling, or containing carbon Adj. 1. core similar to that of DEP but containing fewer adsorbed chemicals than DEP, and in lower volumes. Comparing the responsiveness of rats exposed to these different particles may reveal some insights of the mechanisms related to DEP-induced toxicity. Materials and Methods Particle sample preparations. We purchased a standardized DEP sample with a mass median aerodynamic diameter of approximately 0.5 [micro]m from the National Institute of Standards and Technology National Institute of Standards and Technology, governmental agency within the U.S. Dept. of Commerce with the mission of "working with industry to develop and apply technology, measurements, and standards" in the national interest. (Standard Reference Material 1650, Gaithersburg, MD). We obtained carbon black (Elftex-12 furnace black), with particles ranging from 0.1 to 0.6 [micro]m in diameter, from Cabot (Boston, MA). Particles were autoclaved, suspended in pyrogen-free sterile saline (Baxter Healthcare Corporation, Deerfield, IL), and sonicated for 5 min using an ultrasonic processor with a micro tip (Heat System-Ultrasonics, Plainview, NY) before intratracheal instillation. Animals and exposures. Male Sprague-Dawley rats (250--300 g) purchased from Hilltop Lab (Scottsdale, PA) were kept in cages upon arrival and housed in a facility approved by the Association for Assessment and Accreditation of Laboratory Animal Care International. Animals had free access to food and water. They were exposed to particles by intratracheal instillation as follows: Rats were lightly anesthetized a·nes·the·tize also a·naes·the·tize tr.v. a·nes·the·tized, a·nes·the·tiz·ing, a·nes·the·tiz·es To induce anesthesia in. a·nes by intraperitoneal (ip) injection with 1% methohexital sodium (Brevital; Eli Lilly Co., Indianapolis, IN), and DEP or CB suspensions (5 mg/kg body weight) were injected into the trachea trachea (trā`kēə) or windpipe, principal tube that carries air to and from the lungs. It is about 4 1-2 in. (11.4 cm) long and about 3-4 in. (1.9 cm) in diameter in the adult. through a curved ball-tipped cannula cannula /can·nu·la/ (kan´u-lah) a tube for insertion into a vessel, duct, or cavity; during insertion its lumen is usually occupied by a trocar. can·nu·la or can·u·la n. pl. (18-gauge). Control animals were instilled with sterile saline (the vehicle) only. Listeria monocytogenes, strain 10403S, was kindly provided by R. Schafer (West Virginia University West Virginia University, mainly at Morgantown; coeducational; land-grant and state supported; est. and opened 1867 as an agricultural college, renamed 1868. , Morgantown, WV) and grown in brain-heart infusion (BHI BHI Baker Hughes Incorporated BHI Brain Heart Infusion (agar) BHI Better Hearing Institute BHI British Horological Institute (UK) BHI Boots Healthcare International BHI Branch If Higher ) broth (Difco Laboratories, Detroit, MI) at 37 [degrees] C overnight. The Listeria concentration was determined spectrophotometrically and diluted with sterile saline to a desired concentration for dosing. Three days after particle instillation, half of the rats were intratracheally inoculated with approximately 5,000 Listeria, according to the procedure described above for particle instillation. The other half of the rats received sterile saline only. There were six different treatment groups in this study, including saline:saline, DEP:saline, CB:saline, saline:Listeria, DEP:Listeria, and CB:Listeria. Bronchoalveolar lavage. At 3, 5, and 7 days after Listeria inoculation, the rats were deeply anesthetized with an overdose of sodium pentobarbital pentobarbital /pen·to·bar·bi·tal/ (pen?to-bahr´bi-tal) a short- to intermediate-acting barbiturate; the sodium salt is used as a hypnotic and sedative, usually presurgery, and as an anticonvulsant. (ip, Butler Co., Columbus, OH) and exsanguinated by cutting of the abdominal aorta. The trachea was cannulated can·nu·late also can·u·late tr.v. can·nu·lat·ed, can·nu·lat·ing, can·nu·lates To insert a cannula into (a bodily cavity, duct, or vessel), as for the drainage of fluid or the administration of medication. adj. , the left lobe of the lungs was clamped, and bronchoalveolar lavage (BAL) was performed on the right lungs. The lungs were lavaged with 4 mL [Ca.sup.2+]/[Mg.sup.2+] free phosphate-buffered solution (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, , 145 mM NaCl, 5 mM KCl, 1.9 mM Na[H.sub.2][PO.sub.4], 9.35 mM [Na.sub.2][HPO HPO 1. hyperbaric (high-pressure) oxygenation. 2. hypertrophic pulmonary osteodystrophy. .sub.4], and 5.5 mM glucose; pH = 7.4). Infusion and aspiration of [Ca.sup.2+]/[Mg.sup.2+] free PBS was continued until 50 mL bronchoalveolar lavage (BAD fluid were collected from each rat. The samples were centrifuged for 10 min at 500 g and the cell-free lavage lavage /la·vage/ (lah-vahzh´) 1. the irrigation or washing out of an organ, as of the stomach or bowel. 2. to wash out, or irrigate. lav·age n. fluid was discarded. The cell pellets were suspended in 1 mL of PBS. The number of AM and neutrophils in the BAL cell suspension was determined using an electronic cell counter e·lec·tron·ic cell counter n. An automatic blood cell counter, sometimes capable of providing multiple simultaneous measurements, as of white blood cells, red blood cells, hemoglobin, and hematocrit. equipped with a cell sizing attachment (Coulter Electronics, Hialeah, FL). The remaining BAL cells were used for primary cell culture to determine functional activity of the cells. Clearance of Listeria from the lungs. After BAL, the left lobe of the lungs was excised and homogenized ho·mog·e·nize v. ho·mog·e·nized, ho·mog·e·niz·ing, ho·mog·e·niz·es v.tr. 1. To make homogeneous. 2. a. To reduce to particles and disperse throughout a fluid. b. in sterile water using a tissue grinder. Serial dilutions of the tissue homogenate homogenate /ho·mog·e·nate/ (ho-moj´in-at) material obtained by homogenization. homogenate material obtained by homogenization. were plated in triplicate on BHI agar plates and incubated at 37 [degrees] C overnight. Colony-forming units (CFUs), an index of viable bacteria, were counted on each plate. We averaged the counts and corrected them for dilution to yield the CFUs per left lobe of lungs. Luminol-dependent chemiluminescence. We performed luminol-dependent chemiluminescence (CL) of BAL cells, a measure of reactive oxygen species (ROS ROS, n.pr See reactive oxygen species. ) formation, with a Berthold LB953 Luminometer (Berthold, Wildbad, Germany) as described previously (28). CL generated by BAL cells, adjusted to 1 x [10.sup.6] AM/mL, was measured before and after stimulation with nonopsonized zymosan zy·mo·san n. An insoluble carbohydrate from the cell wall of yeast, used especially in the immunoassay of properdin. [zymos(is) + -an2.] (2 mg/mL final concentration; Sigma Chemical Company, St. Louis, MO), a particle stimulant that stimulates macrophages. We monitored CL for 15 min at 37 [degrees] C and calculated total CL by integrating the CL versus time response using a Berthold AutoLumat PC-control computer program. The results were presented as total counts/15 min/[10.sup.6] AM. Zymosan-stimulated CL was calculated as the total counts in the presence of stimulant minus the corresponding basal counts. Measurements of nitric oxide and TNF-[Alpha] secreted by AM. BAL cells (1 x [10.sup.6] AM/mL) were suspended in Essential Minimum Eagle Medium (EMEM; BioWhittaker, Walkersville, MD) supplemented with 2 mM glutamine glutamine (gl  `təmēn), organic compound, one of the 20 amino acids commonly found in animal proteins. , 100 g/mL streptomycin streptomycin (strĕp'tōmī`sĭn), antibiotic produced by soil bacteria of the genus Streptomyces and active against both gram-positive and gram-negative bacteria (see Gram's stain), including species resistant to other , 100 units/mL penicillin, and 10%
heat-inactivated calf serum, and seeded onto each well of a 24-well
tissue culture plate. BAL cells were allowed to adhere to plastic plates
for 2 hr in a humidified incubator (37 [degrees] C and 5% [CO.sub.2]);
nonadherent cells were then removed by rinsing the monolayer mon·o·lay·ern. 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 with EMEM media 3 times. These adherent adherent /ad·her·ent/ (-ent) sticking or holding fast, or having such qualities. cells, more than 90% macrophages, were then incubated (37 [degrees] C and 5% [CO.sub.2]) in fresh EMEM for 18 hr. The AM-conditioned media were collected and centrifuged (8,000 rpm for 4 min). The supernatants were aliquoted and stored at -70 [degrees] C until analysis of nitric oxide and TNF-[Alpha]. The production of nitric oxide was determined using a Griess assay (29), as the accumulation of nitrite nitrite Any salt or ester of nitrous acid (HNO2). The salts are inorganic compounds with ionic bonds, containing the nitrite ion (NO2−) and any cation. measured by a modified microplate assay. Briefly, samples were incubated with an equal volume of Griess reagent at room temperature for 10 min. We determined the absorbance absorbance /ab·sor·bance/ (-sor´bans) 1. in analytical chemistry, a measure of the light that a solution does not transmit compared to a pure solution. Symbol . 2. at 550 nm with a microplate spectrophotometer spectrophotometer, instrument for measuring and comparing the intensities of common spectral lines in the spectra of two different sources of light. See photometry; spectroscope; spectrum. reader (SPECTRAMaxTM 250; Molecular Devices Co., Sunnyvale, CA). Sodium nitrite (Sigma) was used as a standard. The results were expressed as micromoles of nitrite per [10.sup.6] AM. We quantified the content of TNF-[Alpha] in AM-conditioned supernatants by an enzyme linked immunosorbent immunosorbent /im·mu·no·sor·bent/ (-sor´bent) an insoluble support for antigen or antibody used to absorb homologous antibodies or antigens, respectively, from a mixture; the antibodies or antigens so removed may then be eluted in pure assay (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ) using a commercial kit (BioSource International, Inc. Camarillo, CA.). The production of TNF-[Alpha] was expressed as ng/[10.sup.6] AM. Differential counts of T cells, [CD.sup.4+] and [CD8.sup.+] cells. At 7 days after Listeria inoculation, we excised two lung-draining lymph nodes from each rat and prepared single-cell suspensions. We determined total lymphocytes by using an electronic cell counter (Coulter Electronics). To enumerate To count or list one by one. For example, an enumerated data type defines a list of all possible values for a variable, and no other value can then be placed into it. See device enumeration and ENUM. the T cells, [CD4.sup.+] and [CD8.sup.+] cells, we labeled each of the respective cell types with an appropriate monoclonal antibody, which is conjugated conjugated adj. Conjugate. estrogens, conjugated Warning - Hazardous drug! C.E.S. with a fluorescent probe for visualization. We collected the cells 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 and suspended them in PBS, pH 7.4, containing 1% bovine serum albumin and 0.1% sodium azide to a cell density of 1.5 x [10.sup.6]/mL. We used antirat CD3 monoclonal antibody conjugated with fluorescein isothiocyanate to enumerate T cells. For the T-cell subsets, we incubated the cells with antirat [CD4.sup.+] monoclonal antibody conjugated with fluorescein isothiocyanate and antimouse [CD8.sup.+] monoclonal antibody conjugated with phycoerythin. We also incubated the cells with their respective isotype i·so·type n. An antigenic marker that occurs in all members of a subclass of an immunoglobulin class. i control to correct for auto-fluorescence. After incubation with the conjugated monoclonal antibodies, the cells were washed once with staining buffer and incubated for 5 min with propidium iodide as a viability stain. The cells were again washed and then enumerated This term is often used in law as equivalent to mentioned specifically, designated, or expressly named or granted; as in speaking of enumerated governmental powers, items of property, or articles in a tariff schedule. with a FacsVantage Flow Cytometer (Becton Dickinson, San Jose, CA). Fluorescence was gated on propidium iodide to eliminate dead cells. The values were expressed as the percentage of gated live cells and the absolute number of cells staining positive for each cell surface marker cell surface marker A molecule usually found on the plasma membrane of a specific cell type or a limited number of cell types . Statistics. We analyzed the data using JMPs, a statistical package obtained from SAS Institute, Inc. (Cary, NC). Most data were expressed as the mean [+ or -] standard error of mean (SE) of experimental values, except for CFUs in the lung lobe, for which the individual values were expressed. We used one-way analysis of variance (ANOVA anova see analysis of variance. ANOVA Analysis of variance, see there ) to analyze difference among the treatments at the same postinfection day; for multiple comparisons among means we used Tukey-Kramer's Honestly Significant Different (HSD HSD Human Services Department HSD High Speed Data HSD Hillsboro School District (Hillsboro, OR) HSD Hybrid Synergy Drive (Toyota/Lexus) HSD High School Diploma HSD Historical Society of Delaware ) Test. We analyzed the interactive effects of particulate preexposure and Listeria challenge by two-way ANOVA. If the response of the combined treatment is the sum of a separate function for exposure to particles alone and exposure to Listeria alone (additive effect), then it indicates no interaction. If the response of the combined treatment is not the sum of a separate function of each treatment, either lower or higher (nonadditive effect), then an interaction, either inhibition or synergist synergist /syn·er·gist/ (-er-jist) a muscle or agent which acts with another. syn·er·gist n. A synergistic organ, drug, or agent. , occurred. We tested all data for homogeneity of variance before ANOVA using a Bartlett's test; wherever the variance was heterogeneous, such as the results of CFUs and TNF-[Alpha] data were log-transformed. The significance was set at p [is less than] 0.05. Results Effect of particulate exposure on the Listeria clearance in lungs. The effects of DEP and CB exposure on the clearance of Listeria from lungs are presented in Figure 1. The pattern of pulmonary Listeria clearance was different among the DEP-, CB-, and saline-pretreated rats. Compared to the saline controls, fewer bacteria were found in the lungs of DEP-treated rats at 3 days postinfection, whereas more bacteria were detected in the lungs of DEP-treated rats at 5 days. By 7 days, approximately 1,000 CFUs were counted from the left lobe of lungs of the saline-pretreated rats, while approximately 6,000 were recovered from the lungs of rats exposed to DEP. The difference was significant. As with DEP, rats treated with CB had fewer bacteria in the lungs compared to the saline controls at 3 days; such difference, however, was not observed at 5 and 7 days after infection. These data indicate that exposure of rats to DEP, but not to CB, slowed intrapulmonary Listeria killing. [GRAPH OMITTED] Effect of particulate exposure and/or Listeria injection on retrievable phagocytes by BAL. Phagocytes, including AM and neutrophils, are the major effector cells against pulmonary Listeria during the early infectious stage. To determine whether the exposures had any effect on the retrievable phagocytes from the alveolar alveolar /al·ve·o·lar/ (al-ve´o-lar) [L. alveolaris ] pertaining to an alveolus. al·ve·o·lar adj. Relating to an alveolus. space, rats underwent bronchoalveolar lavage at 3, 5, and 7 days after Listeria infection. The rats infected with Listeria alone at this dosage had no significant change in the yield of lavageable AM or neutrophils compared to the saline controls (Table 1). At 3 days postinfection, exposure to DEP alone resulted in an approximately 2-fold or 8-fold increase, respectively, in the number of lavageable AM or neutrophils. This increase, however, did not occur with the combined treatment of DEP and Listeria; the total number of lavageable phagocytes was slightly higher than that of the rats treated with Listeria alone, but much lower than that of the rats treated with DEP alone. Similarly, exposure to CB alone also increased the yield of lavageable AM and neutrophils; the combined treatment of CB and Listeria also diminished the total number of AM plus neutrophils at 3 days postinfection compared to rats treated with CB alone. However, the extent of the decrease was much lower than that with DEP. The yield of phagocytes from rats treated with CB and Listeria was significantly higher than that in rats treated with Listeria alone. The effect of particle exposures on the yield of these lavageable phagocytes was transient. No significant differences were noted among the various treatment groups by 5 and 7 days after infection.
Table 1. Effects of particulate exposure and/or Listeria infection
on the yield of lavageable AM or neutrophils in rats.(a)
3 Days postinfection
AM Neutrophils
Without Listeria
Saline 4.21 [+ or -] 0.55 0.60 [+ or -] 0.06
DEP 10.87 [+ or -] 0.57(*) 5.04 [+ or -] 0.70(*)
CB 10.90 [+ or -] 1.92(*) 5.30 [+ or -] 1.14(*)
With Listeria
Saline 3.91 [+ or -] 0.75 1.12 [+ or -] 0.32
DEP 4.44 [+ or -] 2.08 [+ or -] 0.51(*)
0.65([double dagger]) ([double dagger])
CB 8.87 [+ or -] 1.02(*) 2.99 [+ or -] 0.86(*)
([double dagger])
5 Days postinfection
AM Neutrophils
Without Listeria
Saline 5.98 [+ or -] 0.93 0.87 [+ or -] 0.16
DEP 6.46 [+ or -] 0.96 1.82 [+ or -] 0.32
CB 5.98 [+ or -] 1.60 1.03 [+ or -] 0.10
With Listeria
Saline 4.77 [+ or -] 0.74 0.85 [+ or -] 0.09
DEP 5.55 [+ or -] 1.28 1.26 [+ or -] 0.16
CB 6.05 [+ or -] 1.07 1.04 [+ or -] 0.08
7 Days postinfection
AM Neutrophils
Without Listeria
Saline 4.93 [+ or -] 0.63 0.75 [+ or -] 0.05
DEP 3.21 [+ or -] 0.56 0.76 [+ or -] 0.05
CB 4.52 [+ or -] 1.01 0.86 [+ or -] 0.07
With Listeria
Saline 3.77 [+ or -] 0.53 0.63 [+ or -] 0.06
DEP 3.12 [+ or -] 0.67 0.70 [+ or -] 0.10
CB 5.43 [+ or -] 0.84 0.65 [+ or -] 0.07
(a) Data are presented as mean [+ or -] SE of cell numbers
(x [10.sup.6]). Each group had at least 6 animals. Rats received a
single dose of DEP (5 mg/kg), CB (5 mg/kg), or saline intratracheally.
Three days later, the rats were intratracheally inoculated with -5,000
Listeria. At 3, 5, and 7 days after bacteria infection, the rats were
sacrificed, bronchoalveolar lavage was performed, and differential
counts of BAL cells were determined.
(*) Significant difference from the saline: saline controls, p < 0.05.
([double dagger]) Significantly less than the expected additive effects
of particles alone (DEP or CB) and Listeria alone (analyzed by two-way
ANOVA), p < 0.05.
Effect of particulate exposures on Listeria-induced ROS production by phagocytes. Reactive oxygen species (ROS) generated by phagocytes are important in killing various bacteria, including Listeria. CL is a measure of light production that represents the generation of ROS by cells. As shown in Figure 2, differences in CL production were found among the rats treated with DEP, CB, Listeria, or saline at 3 days postinfection. Without any ex vivo stimulation, the basal production of CL was not affected by intratracheal exposure to particles, but was slightly increased by Listeria inoculation compared to the saline controls. After preexposure to DEP, Listeria-induced basal CL production was significantly decreased, whereas it was not significantly affected by preexposure to CB. This DEP-related suppressive sup·pres·sive adj. Tending or serving to suppress. Adj. 1. suppressive - tending to suppress; "the government used suppressive measures to control the protest" effect also occurred in CL production of macrophages in response to zymosan. Preexposure to either DEP or CB increased zymosan-stimulated CL. Exposure to Listeria alone also significantly increased CL production after zymosan stimulations. However, Listeria-induced CL was depressed following DEP exposure but not after CB exposure. These effects were transient; no treatment-related differences were observed at 5 and 7 days after infection (data not shown). [GRAPH OMITTED] This DEP-elicited suppression of phagocyte phagocyte (făg`əsīt'): see blood. activity after Listeria infection is also demonstrated by monitoring nitric oxide (NO), another ROS, produced by AM. Compared to saline controls, the production of NO by AM was consistently increased in Listeria-inoculated rats through all examining time points, whereas NO production increased slightly in DEP-treated rats only at 3 days postinfection (Figure 3). Preexposure to DEP inhibited Listeria-induced NO production at 3, 5, and 7 days postinfection--Listeria-induced NO production was abolished thoroughly in the rats. The response of rats to CB was different from their response to DEP. CB consistently increased NO production throughout this 7day experimental period. At 3 days postinfection, the amount of NO produced by the rats treated with both CB and Listeria was the expected additive sum of CB alone and Listeria alone, indicating that no interaction occurred. The combined treatment of CB and Listeria caused an inhibitory reaction at 5 and 7 days postinfection, because the level of NO fell significantly below the expected additive sum of CB alone and Listeria alone. However, unlike the rats treated with both DEP and Listeria, the rats treated with CB and Listeria produced no less NO compared to the rats treated with Listeria alone. [GRAPH OMITTED] Effect of particulate exposures and/or Listeria injection on TNF-[Alpha] production by AM. TNF-[Alpha] is an important cytokine Cytokine Any of a group of soluble proteins that are released by a cell to send messages which are delivered to the same cell (autocrine), an adjacent cell (paracrine), or a distant cell (endocrine). involved in listeriocidal activity. The effects of particles and Listeria on the production of TNF-[Alpha] by AM were assessed 3 days after Listeria inoculation. The content of TNF-[Alpha] in cultured cell supernatants was ~0.67 ng/[10.sup.6] AM in rats treated with saline only (Figure 4). Exposure to DEP alone or Listeria alone at this dosage and this time did not show a significant change in the secretion of TNF-[Alpha]. However, CB stimulated macrophage production of TNF-[Alpha]. There was more than a 10-fold increase in TNF-[Alpha] production in the CB-treated rats compared to rats treated with either DEP or saline. This particulate-related effect was not affected by the combined treatment; the production of TNF-[Alpha] was not significantly different between the group treated with particles alone and those treated with both particles and Listeria. [GRAPH OMITTED] Effect of particulate exposures and/or Listeria injection on the lymphocyte subpopulations in the lung-draining lymph nodes. Exposure to DEP appeared to decrease the ability of rats to clear Listeria from the lungs. Since the clearance of Listeria partially depends on T-cell mediated immunity, the question is whether exposure of rats to DEP and/or Listeria could alter the subpopulations of lymphocytes. As shown in Table 2, at 7 days after bacteria inoculation, the total number of lymphocytes recovered from the lung-draining lymph nodes, which were markedly enlarged, increased significantly in DEP-, CB-, or Listeria-treated rats. The rats exposed to either DEP and Listeria or CB and Listeria had an expected additive number of total lymphocytes. Flow cytometric analysis showed that the number of T cells increased approximately 3-fold in rats treated with DEP alone, CB alone, or Listeria alone compared to the saline controls. However, the percentage of T cells increased in the DEP- or CB-treated rats, whereas it did not change in the Listeria-treated rats. These particulate-induced changes in both percentage and number apparently diminished after coexposure to particles (either DEP or CB) and Listeria. The percentage and absolute number of T cells in the rats treated with particles and Listeria fell significantly below the expected additive sum in those treated with particles alone and Listeria alone, suggesting that an inhibitory interaction may occur.
Table 2. Effect of particulate exposure and/or Listeria infection
on the number of total cells and the number and percentage of T
cells in the lung-draining lymph nodes.(a)
Total cells
(1 x 106)
Without Listeria
Saline 21.01 [+ or -] 4.09
DEP 51.55 [+ or -] 9.61(*)
CB 50.01 [+ or -] 6.14(*)
With Listeria
Saline 70.75 [+ or -] 9.37(*)
DEP 100.39 [+ or -] 14.03(*)
CB 109.41 [+ or -] 6.40(*)
T cells
(1 x [10.sup.6])
Without Listeria
Saline 8.86 [+ or -] 2.08
DEP 30.47 [+ or -] 5.35(*)
CB 26.10 [+ or -] 3.12(*)
With Listeria
Saline 28.03 [+ or -] 3.09(*)
DEP 40.09 [+ or -] 5.92(*)([double dagger])
CB 38.69 [+ or -] 2.56(*)([double dagger])
Percentage
Without Listeria
Saline 38.18 [+ or -] 3.55
DEP 59.57 [+ or -] 1.86(*)
CB 49.63 [+ or -] 2.46(*)
With Listeria
Saline 41.31 [+ or -] 3.42
DEP 41.48 [+ or -] 4.15([double dagger])
CB 41.71 [+ or -] 1.51([double dagger])
(a) Rats received a single dose of DEP or CB (5 mg/kg) intratracheally. At 3 days after exposure, rats were intratracheally inoculated with ~5,000 Listeria. At 7 days after Listeria infection, the lung-draining lymph nodes were excised and the total number of cells was counted. The number and percentage of T cells were determined by flow cytometric analysis. (*) Significantly different from the saline:saline controls, p < 0.05. ([double dagger]) Significantly less than the expected additive effects of particle alone (DEP or CB) and Listeria alone (analyzed by two-way ANOVA), p < 0.05. The results of absolute numbers and percentages of T cell subsets [CD4.sup.+] and [CD8.sup.+] among these different treatment groups are presented in Figure 5. The rats instilled with saline had approximately 30% [CD4.sup.+] cells and 10% [CD8.sup.+] cells, whereas the rats instilled with DEP had approximately 50% [CD4.sup.+] and 20% [CD8.sup.+] (Figure 5A). Listeria alone increased the proportion of [CD8.sup.+] cells but not [CD4.sup.+] cells. However, coexposure to DEP and Listeria seemed to negate DEP-induced effects; the percentage of [CD4.sup.+] or [CD8.sup.+] cells reverted to the number for rats treated with Listeria alone. As shown in Figure 5B, DEP and Listeria both increased the absolute numbers of [CD4.sup.+] and [CD8.sup.+] cells. The rats coexposed to DEP and Listeria had the expected additive sum of [CD4.sup.+] or [CD8.sup.+] cells. There were more [CD4.sup.+] and [CD8.sup.+] cells available in these rats than in rats treated with either Listeria alone or DEP alone. Such changes in the numbers of [CD4.sup.+] and [CD8.sup.+] cells were also observed in the CB-treated rats. Interestingly, the alterations were almost identical to those for DEP. [GRAPH OMITTED] Discussion In this study, we demonstrated for the first time that exposure to DEP increased the susceptibility of rats to Listeria monocytogenes pulmonary infection. The rats exposed to DEP and then inoculated with Listeria intratracheally were less able to clear bacteria from the lungs than were those not exposed to DEP, such as those treated with saline or CB 5 and 7 days after infection. CB has a carbonaceous core similar to that of DEP, but contains fewer organic chemicals, and in lower volume. The different responsiveness of rats to DEP and CB suggests that the organic components of DEP play a role in this reaction. Many studies have shown that the chemicals associated with DEP are actually responsible for various DEP-induced effects, including mutagenicity mutagenicity /mu·ta·ge·nic·i·ty/ (-je-nis´it-e) the property of being able to induce genetic mutation. mutagenicity the property of being able to induce genetic mutation. (30), adjuvant activity for IgE production (31), production of reactive oxygen radicals (32), induction of macrophage apoptosis (33), and secretion of cytokines by macrophages (16). Although the results of this study further indicate the importance of these organic compounds, the role of particles as a carrier that delivers these chemicals to the phagocytes and to the deep lung should not be ignored. Jakab and colleagues (26,34) have shown that coexposure of animals to CB and acrolein acrolein /acro·le·in/ (ak-ro´le-in) a volatile, highly toxic liquid, produced industrially and also one of the degradation products of cyclophosphamide. lessens macrophage phagocytosis phagocytosis: see endocytosis. Phagocytosis A mechanism by which single cells of the animal kingdom, such as smaller protozoa, engulf and carry particles into the cytoplasm. , suppresses TNF-[Alpha] secretion, and impairs Listeria clearance from the lungs, whereas exposure to either CB alone or acrolein alone has no such effects. To determine the possible underlying mechanism involved in this compromised defense against respiratory infection, we focused on the effects of particle exposure on macrophage functions. Listeria is a Gram-positive, facultative intracellular bacterium that can be destroyed mainly by one of the most important effector cells, the activated macrophages (35,36). Macrophages play an important role not only in the innate immunity as the first line of host defense against Listeria, but also through the acquired immune system, acting as a modulator to induce appropriate sequential reactions (19,37). Therefore, using a Listeria-resistant animal model to study T-cell--mediated macrophage activation has been recommended by the National Toxicology Program National Toxicology Program Environment A program that conducts toxicologic tests on substances frequently found at the EPA's National Priorities List sites, which have the greatest potential for human exposure (24). Various particles present in different occupational and environmental settings affect macrophage host defense mechanisms, such as decreased phagocytosis and oxidant oxidant /ox·i·dant/ (ok´si-dant) the electron acceptor in an oxidation-reduction (redox) reaction. ox·i·dant n. See oxidizer. generation and decreased production of inflammatory cytokines (13,15,38). Indeed, we have previously shown that preexposure of rats to DEP, both in vitro and in vivo, decreases LPS-stimulated macrophage secretion of IL-1 and TNF-[Alpha] (16,17). Our data show that the rats pretreated with DEP exhibited slowed clearance of Listeria in the lungs at 5 and 7 days after infection, suggesting that macrophage function was suppressed after DEP exposure. This observation was confirmed at least partly by the significant depression of NO production at the same time. ROS play a critical role in the host's defense against Listeria (39,40). Compared to the saline-treated controls, in the rats treated with DEP Listeria-induced production of NO was significantly suppressed, increasing the viable Listeria in the lungs; the combination of CB and Listeria produced no less NO than Listeria alone and therefore did not slow the clearance of Listeria from the lungs. However, we also noted suppressed macrophage function in the DEP-treated rats at 3 days postinfection, when the lung burden of Listeria decreased compared to that in the saline controls. Obviously, other factors contribute to this effect. One of the possibilities is that the particle exposure induces other antimicrobial products. Indeed, increased secretion of IL-1 in response DEP has been reported previously (17). This may compensate for the decreased ROS production, resulting in the increased Listeria clearance at this time. Another possibility that may account for this decreased bacteria clearance is the elevated ratio of phagocytes to bacteria in DEP-treated rats at day 3 (Table 1). Without Listeria infection, DEP-treated rats had a significantly greater amount of lavageble phagocytes. Both macrophages and neutrophils play a critical role in destroying Listeria at the early stage of infection (41,42). Therefore, the increased number of phagocytes in the airways initially after particle treatment may make rats initially more resistant to invaders. This increase did not persist at 5 and 7 days, when bacteria clearance was compromised. In the rats treated with both DEP and Listeria at 3 days postinfection, the yield of phagocytes was actually lower than the rats treated with particles alone. It is possible that this decreased yield of phagocytes could be related to a decreased lavage efficiency. In a previous study, a decrease in macrophages harvested by lavage was noted in animals exposed to cotton dust; however, such a decrease coincided with an increase in alveolar macrophages, determined by morphologic examination (43). These results suggest that initially following cotton dust exposure these activated phagocytes may adhere more tightly to airways and be more difficult to remove by bronchoalveolar lavage. With increasing time of exposure, the discrepancy between lavage and histologic estimates of macrophage number diminishes. A similar observation was also reported by other investigators (44). If this is true, there could be more phagocytes in the airways of DEP-exposed rats at 3 days. This increased number of phagocytes (especially neutrophils) may be responsible for the ability of DEP-pretreated rats to destroy Listeria, even though macrophage function was suppressed at that time. We also noted a different responsiveness of macrophages to DEP and CB in the production of TNF-[Alpha]. The rats treated with CB but not with DEP exhibited an increased production of TNF-[Alpha]. TNF-[Alpha] is one of the important cytokines involved in Listeria killing (45). TNF-[Alpha] works in listeriosis primarily through its activation of lymphocytes to produce interferon (IFN IFN abbr. interferon IFN interferon. IFN Interferon, see there )-[Gamma], which in turn activates macrophages, enhancing their listeriocidal activity (46,47) through the production of ROS (39,48). Thus, the activation of macrophages could be affected by different responsiveness of macrophages in producing TNF-[Alpha] after DEP and CB exposure, which ultimately would influence the resistance of rats to Listeria. Because sterilizing Listeria infection requires the adaptive cellular immune response cellular immune response n. See cell-mediated immune response. with the activation of [CD4.sup.+] and [CD8.sup.+] T cells (22), the decreased clearance of Listeria after DEP exposure observed in this study suggests that DEP may depress T-cell--mediated immunity. In this study, we also found that exposure of rats to DEP significantly altered the lymphocyte subpopulations in the lung-draining lymph nodes. Both the absolute number and percentage of [CD4.sup.+] cells and [CD8.sup.+] cells in the lymph nodes increased in DEP-exposed rats. Such elevation of T-cell numbers has also been observed in both humans and animals exposed to DEP (49,50). Interestingly, the combined treatment of DEP and Listeria resulted in a lower percentage of [CD4.sup.+] cells or [CD8.sup.+] cells relative to the sum of DEP alone and Listeria alone. DEP is likely to induce T-cell--mediated immune disorders by shifting the vulnerable balance in the system and decreasing the resistance of hosts to respiratory infections. However, it is uncertain whether this alteration of lymphocyte subpopulations would increase the susceptibility of rats to Listeria infection after DEP exposure, because a similar change in [CD4.sup.+] and [CD8.sup.+] cell populations was also noted after CB exposure, which did not decrease the clearance of Listeria. Therefore, this particle-related change in the T-cell subpopulation sub·pop·u·la·tion n. A part or subdivision of a population, especially one originating from some other population: microbial subpopulations. Noun 1. could not account for the different effects of DEP and CB on the clearance of Listeria. Resistance to Listeria infection requires symbiosis symbiosis (sĭmbēō`sĭs), the habitual living together of organisms of different species. The term is usually restricted to a dependent relationship that is beneficial to both participants (also called mutualism) but may be extended to between macrophages and T cells; such interactions are linked by mediators secreted by these cells, including TNF-[Alpha], IL12, IL-10, and IFN-[Gamma] (45,47,51). Previously, we have shown that DEP, but not CB, suppressed LPS-induced secretion of IL-1 and TNF-[Alpha] by macrophages (17). In this study, we also demonstrated that DEP and CB elicited different macrophage responses to Listeria in the production of ROS. Because the responses of macrophages to sequential stimuli are different after DEP and CB exposure, this particle-related effect may influence the response of lymphocytes differently. Although the population of lymphocytes was not significantly different between DEP- and CB-treated rats, exposure to DEP or CB may affect T-cell--mediated function differently. Suppressed lymphocyte function by DEP has been shown in a recent study (52); the combined treatment of DEP and ragweed ragweed, any plant of the genus Ambrosia, coarse, weedy herbs belonging to the family Asteraceae (aster family), most of which are native to America. They have inconspicuous greenish flowers and soft subdivided leaves. decreases gene expression of IFN-[Gamma], which is an active modulator in T-cell--mediated immunity. Van Loveren and colleagues (25) also found that exposure of rats to ozone slows the clearance of Listeria from the lungs. They demonstrated that ozone suppresses T-cell--mediated immune function; both Listeria-elicited delayed-type hypersensitivity hypersensitivity, heightened response in a body tissue to an antigen or foreign substance. The body normally responds to an antigen by producing specific antibodies against it. The antibodies impart immunity for any later exposure to that antigen. response and T-cell proliferation decreased after ozone exposure. The mechanisms by which DEP exposure may affect T-cell--mediated immunity by altering lymphocyte function are currently under investigation in our laboratory. In summary, we have demonstrated that exposure to DEP, but not to CB, increased the susceptibility of rats to Listeria lung infection, indicating that DEP may have an adverse influence on the development of T-cell--mediated immunity. The different responsiveness of macrophages after particulate exposure may account partially for this effect. Exposure to DEP attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. Listeria-induced macrophage activation, determined as CL generation and NO production. 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Macrophage production of IL12 is a critical link between the innate and specific immune responses to Listeria. Res Immunol 146:515--520 (1995). (52.) Diaz-Sanchez D, Tsien A, Fleming J, Saxon A. Combined diesel exhaust particulate and ragweed allergen allergen /al·ler·gen/ (al´er-jen) an antigenic substance capable of producing immediate hypersensitivity (allergy).allergen´ic pollen allergen challenge markedly enhances human in vivo nasal ragweed-specific IgE and skews cytokine production to a T helper cell T helper cell see helper lymphocyte. 2-type pattern. J Immunol 158:2406--2413 (1997). Hui-Min Yang,(1) James M. Antonini,(1) Mark W. Barger,(1) Leon Butterworth,(1) Jenny R. Roberts,(1) Joseph K.H. Ma,(2) Vince Castranova,(1) and Jane Y.C. Ma(1) (1) Health Effects Laboratory Division, National Institute for Occupational Safety and Health National Institute for Occupational Safety and Health, n.pr an institute of the Centers for Disease Control and Prevention that is responsible for assuring safe and healthful working conditions and for developing standards of safety and health. , Morgantown, West Virginia, USA; (2) School of Pharmacy, West Virginia University, Morgantown, West Virginia, USA Address correspondence to H-M Yang, Mail Stop 2015, PPRB/HELD, National Institute for Occupational Safety and Health, 1095 Willowdale Road, Morgantown, WV 26505 USA. Telephone: (304) 285-6172. Fax: (304) 285-5938. E-mail: hay7@cdc.gov This work was presented in part at the 38th annual meeting of the Society of Toxicology, New Orleans, Louisiana, 14-19 March 1999. Received 19 August 2000; accepted 30 November 2000. |
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