Development of immunoassays for biomonitoring of hexamethylene diisocyanate exposure. (Articles).Hexamethylene diisocyanate (HDI HDI Human Development Index (UNDP yardstick of human welfare) HDI Help Desk Institute HDI Humpty Dumpty Institute (New York, New York) HDI High Density Interconnect ) is used widely to manufacture polyurethanes for paints and coatings. It is an irritant and a chemical asthmagen. The U.S. Occupational Safety and Health Administration Occupational Safety and Health Administration (OSHA), U.S. agency established (1970) in the Dept. of Labor (see Labor, United States Department of) to develop and enforce regulations for the safety and health of workers in businesses that are engaged in interstate time-weighted average permissible exposure limit The Permissible Exposure Limit (PEL or OSHA PEL) is a legal limit in the United States for exposure of an employee to a substance, usually expressed in parts per million (ppm), or sometimes in milligrams per cubic metre (mg/m3). is 5 ppb and the ceiling limit is 20 ppb. We sought to develop a sensitive and specific immuno-bioassay to supplement workplace air monitoring and detect recent HDI exposure. For this, we produced rabbit antiserum antiserum /an·ti·se·rum/ (an´ti-se?rum) a serum containing antibody(ies), obtained from an animal immunized either by injection of antigen or by infection with microorganisms containing antigen. to HDI-adducted keyhole limpet limpet, marine gastropod mollusk with a simple, flattened, conical shell, found in cooler waters of the Atlantic and the Pacific oceans. Certain species creep over rocks, feeding on algae during high tides, but when the tide recedes they return instinctively to the hemocyanin hemocyanin /he·mo·cy·a·nin/ (-si´ah-nin) a blue copper-containing respiratory pigment occurring in the blood of mollusks and arthropods. (HDI-KLH). The specificity of the antiserum was demonstrated by its reaction with a variety of HDI-conjugated proteins and the absence of reactions with conjugates of other diisocyanates, namely toluene diisocyanate and diphenyl diphenyl /di·phen·yl/ (di-fen´il) a toxic compound comprising two linked benzene rings, used as a fungistat in containers for shipping citrus fruits. di·phen·yl n. See biphenyl. methylene methylene /meth·y·lene/ (meth?i-len) the bivalent hydrocarbon radical —CH2— or CH2dbond. meth·yl·ene n. diisocyanate. Four immunoassays were developed and compared for their ability to detect decreasing quantities of HDI-adducted human serum albumin (HSA HSA Health Savings Account (US) HSA Human Serum Albumin HSA Human Services Agency (Nevada) HSA Health Services Agency HSA Health and Safety Authority (Ireland) ) containing 2 mol HDI adduct adduct /ad·duct/ (ah-dukt´) to draw toward the median plane or (in the digits) toward the axial line of a limb. adduct /ad·duct/ (a´dukt) inclusion complex. per mol HSA (H[DI.sub.2]-HSA) as determined by matrix-assisted laser desorption Desorption A process in which atomic and molecular species residing on the surface of a solid leave the surface and enter the surrounding gas or vacuum. time-of-flight (MALDI-TOF MALDI-TOF Matrix Assisted Laser Desorption Ionization - Time of Flight ) mass spectrometry. The sensitivities of some of the assays are within the range (0.82-45 nM) of current analytic methods. A Western analysis procedure has a sensitivity of 600 nM HDI adduct on HSA. ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. inhibition assay, in which microtiter plates are coated with the [HDI.sub.2]-HSA antigen, has a sensitivity of 300 nM HDI adduct. An immunoblot assay has a sensitivity of 9 nM HDI adduct. The most sensitive bioassay Bioassay A method for the quantitation of the effects on a biological system by its exposure to a substance, as well as the quantitation of the concentration of a substance by some observable effect on a biological system. (1.8 nM HDI adduct) is a three-antibody sandwich ELISA in which wells of microtiter plates are coated with the IgG fraction of the anti-HDI-KLH antisera. Compared with analytic methods for HDI biomonitoring, the immunoassays are faster and less costly and accommodate numerous samples simultaneously. The assays have the potential to affect industrial biomonitoring programs significantly. Key words: biomonitoring, HDI, immunoassay, occupational asthma. Environ Health Perspect 109:1103-1108 (2001). [Online 11 October 2001] http://ehpnet1.niehs.nih.gov/docs/2001/109p1103-1108lemus/abstract.html Isocyanates are highly reactive compounds used to manufacture polyurethanes. They account for the greatest number of reported cases of occupational asthma both in the United States and in other developed countries. Hexamethylene diisocyanate (HDI), one of the most commercially important isocyanates, is used as a polymerizing agent in polyurethane spray paint and coating formulations. Primary prevention of isocyanate i·so·cy·a·nate n. Any of a family of nitrogenous chemicals that are used in industry and can cause respiratory disorders, especially asthma, if inhaled. asthma is problematic because industrial exposures are widespread and difficult to characterize, measure, and control. Secondary and tertiary prevention opportunities are limited because no simple way has been found to diagnose isocyanate asthma or identify specific at-risk groups. In addition, there is inadequate knowledge of isocyanate exposure patterns and the factors that both cause and exacerbate the disease. As a result of its reactivity and recognized toxicity, there is great interest in developing sensitive methods for detection of human exposure to HDI. Determination of HDI in the blood, serum, urine, and other body fluids is difficult because HDI not only is self-reactive buy may also hydrolyze hydrolyze to performance hydrolysis. or react readily with hydroxyl, sulfhydryl, or amino groups on proteins. Exposure to HDI often occurs in small shops or garages where workplace monitoring may be inadequate. In addition, measurement only of airborne concentrations is likely inadequate because animal studies have indicated that exposure through the skin can result in respiratory 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. (1). Biomonitoring presents an attractive way to supplement air monitoring. By integrating the burden from all routes of exposure, biomonitoring can estimate the total internal dose of the agent. Few biomarkers are available for distinguishing exposure to HDI. Previous methods have used analytic chromatographic chro·mat·o·graph n. An instrument that produces a chromatogram. tr.v. chro·mat·o·graphed, chro·mat·o·graph·ing, chro·mat·o·graphs To separate and analyze by chromatography. procedures to detect hydrolysis products of the isocyanate in urine or blood of workers. Measurement is made of the diamine di·am·ine n. Any of various chemical compounds containing two amino groups, especially hydrazine. Noun 1. diamine - any organic compound containing two amino groups liberated after acid hydrolysis and extraction of urine and blood samples (2,3). Levels of the diamine from methylene diphenyl diisocyanate Methylene diphenyl diisocyanate, most often abbreviated as MDI, is an aromatic diisocyanate. It exists in three isomers, 2,2'-MDI, 2,4'-MDI, and 4,4'-MDI. The 4,4' isomer is most practically useful, and is also known as Pure MDI. (MDI (1) (Multiple Document Interface) A Windows function that allows an application to display and lets the user work with more than one document at the same time. ) in hydrolyzed plasma ranged from 0.25 to 226 nmol/L (4). Toluene diisocyanate (TDI TDI - Transport Driver Interface ) was also detected as the corresponding diamine in hydrolyzed plasma, with levels of 0.82-45 nmol/L (5). Two studies attempted biomonitoring for HDI after exposure of volunteers in test chambers (2,3). Both studies failed to detect hexamethylene diamine in hydrolyzed plasma. We sought to develop a sensitive and specific immunoassay for biomonitoring HDI exposure. Advantages of such an assay are low cost, readily available equipment with low maintenance needs, and the ability to analyze numerous samples simultaneously. We report here the development of immunoassays that have sufficient sensitivity and specificity to detect workplace HDI exposures. Materials and Methods Synthesis of HDI--protein antigens. We added 20 [micro]L hexamethylene diisocyanate (Desmodur HD240, cas # 822-06-0, Bayer Corp., Pittsburgh, PA; purity 98%) dropwise to 20 mL of a rapidly stirred 0.5% (w/v) solution of protein in 0.05 M sodium borate--KCl buffer (0.05 M [H.sub.3]B[O.sub.3], 0.05 M KCl, 0.035 M NaOH, pH 9.4) kept at 37 [degrees] C. After 4 hr, we added 0.5 mL of monoethanolamine to stop the reaction. The solution was filtered, the pH of the supernatant was adjusted to 4.0, and the mixture kept at 4 [degrees] C overnight. The conjugate was collected by centrifugation, dissolved in 15 mL of 0.1 M [(N[H.sub.4]).sub.2]C[O.sub.3] and dialyzed di·a·lyze tr. & intr.v. di·a·lyzed, di·a·lyz·ing, di·a·lyz·es To subject to or undergo dialysis. [Back-formation from dialysis. against 0.05 M NaCl and then water before lyophilization lyophilization /ly·oph·i·li·za·tion/ (li-of?i-li-za´shun) the creation of a stable preparation of a biological substance by rapid freezing and dehydration of the frozen product under high vacuum. . Proteins that we reacted with HDI included keyhole limpet hemocyanin (KLH KLH Keyhole Limpet Hemocyanin KLH Knight of the Legion of Honour KLH Kloss, Lowe and Hoffman (audio equipment brand) KLH Korea Light Helicopter ; Sigma Co., St. Louis, MO), human serum albumin (HSA, 97-99% purity; Sigma Co.), and ovalbumin ovalbumin: see albumin; glycoprotein. (OVA; Sigma Co.). We prepared a series of HDI-HSA conjugates by adding increasing amounts of HDI (1-110 [micro]L) to the 0.5% HSA solution. The conjugates were isolated as described above. Determination of HDI adduction adduction /ad·duc·tion/ (ah-duk´shun) the act of adducting; the state of being adducted. adduction ( (TNBS analysis). We estimated the extent of HDI coupling to protein from the number of amino groups on the conjugated protein that remained available for reaction with 2,4,6-trinitrobenzene sulfonic acid (TNBS; Sigma Co.) after HDI treatment. We added 50 mL of freshly prepared 0.03M TNBS to dilutions of 1% solutions of HDI-HSA and HSA in 0.05 M borate-KCl buffer, pH 9.4 (6). After 30 min, we measured 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 420 nm. We calculated the HDI binding as the percent of protein amino groups that had reacted with HDI as follows: %Substitution = 100 - [100 x [Absorbance.sub.420nm] of HDI conjugate]/ [[Absorbance.sub.420nm] of carrier protein] MALDI-TOF MS analysis. We used a PerSeptive BioSystems Voyager STR STR abbr. synchronous transmitter receiver matrix-assisted laser desorption time-off-light mass spectrometer (MALDI-TOF MS) (Framingham, MA) with a high mass charge (m/z) detector in the linear mode to collect all of the mass spectra. We dissolved [HDI.sub.n]-HSA products and the calibrant, bovine serum albumin (BSA 1. BSA - Business Software Alliance. 2. BSA - Bidouilleurs Sans Argent. ) [molecular weight ([MW.sub.ave]) = 66,431], in 50:50 acetonitrile acetonitrile /ac·e·to·ni·trile/ (as?e-to-ni´tril) a colorless liquid with an etherlike odor used as an extractant, solvent, and intermediate; ingestion or inhalation yields cyanide as a metabolic product. :water and 0.1-0.3% acetic acid. The matrix used for the MS was 10 mg sinapinic acid in 1 mL 50:50 water:acetonitrile with 0.1% trifluoracetic acid (TFA TFA Teach For America TFA Thyroid Foundation of America TFA Trifluoroacetic Acid TFA Trans Fatty Acid TFA Two Factor Authentication (computer security authentication) TFA Texas Forensic Association TFA Total Fatty Acids ) or 0.3% acetic acid. We mixed 1:1 sample:matrix directly on the sample plate or in vials with vortexing. One [micro]L was spotted into a well on the 100-well, gold-plated stainless steel sample plate for the analysis. We determined the MS value of n for the H[DI.sub.n]-HSA adduct by measuring the average increase in mass of the product against a HSA standard. We determined the error in n by a standard deviation calculation from repeat experiments. Immunization immunization: see immunity; vaccination. of rabbits. The immunization protocol was similar to that described previously (7). Two New Zealand white rabbits were injected intradermally in·tra·der·mal adj. Within or between the layers of the skin: an intradermal injection. in with 1.8 mg HDI-KLH emulsified in 2:3 saline-Freund's complete adjuvant (Gibco BRL BRL In currencies, this is the abbreviation for the Brazilian Real. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. , Grand Island, NY). Injections were distributed among 15 sites along both sides of the back. After 21 days, rabbits were boosted subcutaneously with the same dose of HDI-KLH in incomplete adjuvant distributed among 5 sites along the nape of the neck. Blood was drawn 7-10 days following the boost. Isolation of rabbit IgG. We isolated immunoglobulin G (IgG) from rabbit antisera using a two-step procedure as described by McKinney and Parkinson (8). We removed albumin and other non-IgG proteins by precipitation with caprylic acid. We isolated the IgG fraction by adding ammonium sulfate to 45% saturation and then centrifuging at 5,000 g for 30 min. The IgG was resuspended in a small volume of 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, and then dialyzed against PBS at 4 [degrees] C for 16 hr. Evaluation of antisera using ELISA. We used ELISA to measure the titer of rabbit antibodies to HDI-KLH (7). Microtiter plates (Immulon; Dynex Technologies, Inc., Chantilly, VA) were coated by addition of 50 [micro]L of 50 [micro]g/mL HDI-KLH in 0.1 M carbonate buffer, pH 9.6. We added antiserum to wells and made 2-fold dilutions. After incubation at 37 [degrees] C for 1 hr, we added peroxidase-labeled goat antirabbit IgG (1:3,000, Sigma Co.) and then 2,2-azinobis-[3-ethylbenzo-thiazoline-6-sulfonic acid] (ABTS ABTS American Board of Thoracic Surgery ABTS ASCII Block Terminal Services ABTS Arbin Battery Test System ABTS Abusive Tax Shelter ABTS Advanced Business Technology Services (Edwardsville, IL) ABTS Abort Basic Link Service ABTS Abort Sequence ; Sigma) and [H.sub.2][O.sub.2]. We stopped the enzymatic reaction by adding 50 [micro]L of 0.05% SDS 1. (company) SDS - Scientific Data Systems. 2. (tool) SDS - Schema Definition Set. . Absorbance was determined at 410 nm. ELISA inhibition assay. We performed inhibition assays as described by Jin et al. (7). Increasing amounts of test inhibitors dissolved in blotto blot·to adj. Slang Intoxicated; drunk. [Perhaps from blot1.] blotto Adjective Brit, Austral & NZ slang (PBS containing 0.05% tween 20, 0.5% nonfat dry milk Noun 1. nonfat dry milk - dehydrated skimmed milk dried milk, dry milk, milk powder, powdered milk - dehydrated milk ) were added to the wells of antigen-coated microtiter plates before addition of the anti-HDI-KLH antiserum. After 1 hr at 37 [degrees] C, reagents were added as described above to detect the rabbit IgG. The percent inhibition was calculated as follows: %Substitution = 100 x [1-[Absorbance.sub.410nm] with inhibitor]/ [[Absorbance.sub.410nm] without inhibitor] Three-antibody sandwich ELISA (TASE TASE Tel Aviv Stock Exchange TASE The All Seeing Eye TASE Tactical Air Support Element TASE Thrust Assessment Support Environment TASE Telecontrol Application Service Elements (IEC communications protocol) ). We coated polyvinyl chloride microtiter plates (Immulon; Dynex Technologies, Inc.) with 0.01 mg/mL (50 [micro]L/well) IgG fraction from rabbit antiserum to the HDI-conjugated KLH diluted in 0.1 M carbonate buffer, pH 9.6. Plates were kept at 37 [degrees] C for 3 hr and then stored at 4 [degrees] C. Just before use, wells were blocked by addition of blotto. Samples of HDI-adducted HSA containing dithiothreitol [(DTT DTT Deloitte Touche Tohmatsu (Deloitte & Touch Global Operations) DTT Dithiothreitol (cytology reagent) DTT Digital Terrestrial Television DTT Discrete Trial Training ) 10 mg/mL; Sigma] were warmed and then added to the wells. After 1 hr at 37 [degrees] C, we added goat anti-whole human serum (Chemicon International, Inc., Temecula, CA) 1:7,000 in blotto with 0.5% rabbit IgG. We added peroxidase-labeled rabbit antigoat IgG (Sigma) diluted 1:3,000 in PBS-0.05% tween 20 after 1 hr and incubated plates for an additional hr at 37 [degrees] C. Substrate was added as described above and absorbance determined at 410 nm. SDS-PAGE SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis. of HDI-HSA conjugates. We dissolved lyophilized ly·oph·i·lize tr.v. ly·oph·i·lized, ly·oph·i·liz·ing, ly·oph·i·liz·es To freeze-dry (blood plasma or other biological substances). [lyophil(ic) + -ize. aliquots of HDI-adducted HSA in sample loading buffer (SLB SLB Solomon Islands (ISO Country code) SLB Schlumberger Ltd. (oil field services firm) SLB Server Load Balancing SLB Sport Lisboa e Benfica (soccer) ) composed of 20% of 1.0 M Tris-HCl, pH 6.8; 40% glycerol glycerol, glycerin, glycerine, or 1,2,3-propanetriol (prō`pāntrī'ŏl), CH2OHCHOHCH2OH, colorless, odorless, sweet-tasting, syrupy liquid. ; 10% of 10% SDS; and 0.8% of 0.5% Coomassie G-250 (Bio-Rad, Hercules, CA). We added 2.46 mg/mL DTT to some of the samples just before use. Samples were heated in a water bath for 5 min at 95 [degrees] C and then applied to a gradient gel (10-20% Tris-Tricine SDS gel; Bio-Rad). Electrophoresis was performed at constant voltage (100 V, approximately 65 mA). Western analysis. We placed polyacrylamide gels in transfer buffer (pH 8.3) composed of 192 mM glycine glycine (glī`sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Glycine is the only one of these amino acids that is not optically active, i.e. , 25 mM Tris-base, 0.037% SDS, and 20% methanol for 1 hr. We transferred proteins from the gels to nitrocellulose nitrocellulose, nitric acid ester of cellulose (a glucose polymer). It is usually formed by the action of a mixture of nitric and sulfuric acids on purified cotton or wood pulp. membranes (0.45 [micro]m, BioRad) using a Mini Trans-Blot Cell (Bio-Rad) operated at constant voltage (100 V) for 1.5 hr at 4 [degrees] C. Membranes were washed 3 times with Tris-buffered saline (TBS, 20mM Tris, 500 mM NaCl, pH 7.5) and blocked overnight at 4 [degrees] C by immersion in a solution of TBS containing 5% nonfat dry milk (BioRad) with gentle agitation. We added anti-serum to HDI-adducted KLH diluted 1:1,000 in TBS containing 0.5% dry nonfat milk and kept the membranes at 10 [degrees] C for 24 hr. We detected bound antibodies using biotinylated goat antirabbit IgG [Amplified Alkaline Phosphatase Goat Anti-Rabbit Immuno-Blot Assay Kit (AAPGAR) Bio-Rad] diluted 1:3,000 in tween-TBS (0.05% tween 20), pH 7.5, and incubation continued for 2 hr at ambient temperature. After washing, streptavidin-biotinylated alkaline phosphatase complex was added, and the membrane was kept at ambient temperature for 2 hr. We added substrate (5-bromo-4-chloro-3-indole phosphate/nitroblue tetrazolium). We stopped the reaction after 2.5 min by rinsing the membrane in distilled water. Dot blot assay. Samples of HDI conjugate (0.002-4 [micro]g) containing 10 mg/mL DTT were heated in a water bath for 5 min at 95 [degrees] C and then blotted onto nitrocellulose membranes (0.45 [micro]m; Bio-Rad). We used rabbit IgG isolated from the antiserum raised to HDI-adducted KLH to detect HDI adducts. Spots were visualized as described above for the Western analysis. Calculation of immunoassay sensitivity. The sensitivity of each immunoassay was calculated as follows: Sensitivity (nM) = [minimum quantity of conjugate detected ([micro]g) x [# moles HDI in conjugate] / [Mol weight HSA] x [Vol. sample ([micro]L)] Results Specificity of the antiserum to HDI-adducted KLH. Sera from the two rabbits were mixed and evaluated for reactivity with HDI-adducted proteins. Using ELISA, we noted reactions with each of the proteins that we had reacted with HDI (Figure 1). Reaction was also detected with KLH, but not with OVA or HSA. The near identity of the titers obtained with HDI-adducted OVA and HDI-adducted HSA indicates that the antiserum has an "anti-HDI" hapten hapten /hap·ten/ (hap´ten) partial antigen; a specific nonprotein substance which does not itself elicit antibody formation but does elicit the immune response when coupled with a carrier protein. titer of approximately 50,000. [FIGURE 1 OMITTED] Characterization of HDI-protein conjugates. We anticipated that conjugates formed in vivo following occupational exposure would contain a small number of adducts. Accordingly, we sought to prepare a conjugate containing only one or two HDI adducts that could be used to develop the immunoassays. We synthesized conjugated proteins under conditions of physiologic pH and temperature, employing molar ratios of HDI:HSA that ranged from 0.8 to 91.3. We analyzed the extent of adduction of the conjugate series by three methods. A comparison of the methods is presented in Table 1. Using the TNBS method, we found that adduction was a linear function of the initial HDI concentration. However, some of the conjugates that tested negative in the TNBS assay gave a positive response with the rabbit anti-HDI adduct antiserum (conjugates B and C, Table 1). Because the TNBS reagent assesses primarily chemical adduction with amino groups (9), we performed additional analyses using mass spectrometry. We synthesized conjugate A using a molar ratio of HDI:HSA of 45.6:1. MALDI-TOF-MS detected an average of 20.6 mol HDI adduct per mol HSA, whereas TNBS indicated 12 mol adduct per mol protein (Table 1). This difference may be caused by the reaction of HDI with nucleophilic groups other than amines. The TNBS method could not detect adduction on either conjugate B or C. In the immunologically based Western blot assay, conjugate B gave a moderately strong response and conjugate C showed a weak response. The MALDI MALDI Matrix-Assisted Laser Desorption/Ionization mass spectra in Figure 2 show typical data collected for the HSA control in Figure 2A and for two different conjugates in Figures 2B and 2C. Figures 2B and 2C illustrate conjugates that tested negative with TNBS but positive in the Western blot immunoassay (Table 1). The standard deviation in the MW determination of the calibrant, BSA ([MW.sub.ave] = 66,431 amu), from 11 runs was [+ or -] 44 amu ([+ or -] 2 [sigma]). Although BSA is not recommended as a calibrant for MALDI-TOF-MS because it is typically not pure and can produce a systematic error, the determination of the number of HDI molecules adducted was calculated by mass difference. The average [MW.sub.ave] of the HSA control determined from six runs by MALDI-TOF-MS was 66,653 [+ or -] 126 amu. One mass spectrum of the HSA control is shown in Figure 2A with m/z 66,662 for the [[M+H].sup.+] ion. This MW is approximately 200 amu higher than expected. We suspect that the HSA may be complexed with fatty acids or modified by other plasma molecules. One of six analyses of conjugate B is shown in Figure 2B labeled with m/z 66,985 for the [[M+H].sup.+] ion. The six measurements produced a [MW.sub.ave] of 66,980 [+ or -] 70 amu for conjugate B, indicating an average of two HDI adducts per molecule of HSA. Figure 2C shows one of six trials used to measure the MW of conjugate C found here with m/z 66,670 for the [[M+H].sup.+] ion. The six measurements of conjugate C produced a MW of 66,664 [+ or -] 70 amu, indicating an average of 0.1 HDI adduct per molecule of HSA. The error in this latter set of experiments is greater than the determined number of HDI adduct molecules. [FIGURE 2 OMITTED] Reactivity of the antiserum to HDI-adducted KLH. We used the Western blot procedure to evaluate the reactivity of the antiserum with diverse chemical haptens. HSA was reacted with HDI, with other diisocyanates such as TDI and MDI, and with the industrial chemicals formaldehyde and cyanuric chloride. Each of these HSA-conjugates was evaluated with the TNBS reagent and found to contain a minimum of 17 haptenic moieties per molecule HSA. Each conjugate was subjected to gel electrophoresis, transferred to a nitrocellulose membrane, and probed with the antiserum to determine antibody cross-reactivity. Of the antigens tested, only H[DI.sub.2]-HSA reacted with the antiserum (Figure 3, lane 6). Two bands were detected, a broad band at 69 kDa and a narrower band at 128 kDa. Both bands were identified as HSA by amino acid sequencing. [FIGURE 3 OMITTED] The lack of reaction of the antiserum with HSA (lane 1) and with other chemically adducted conjugates (lanes 2-5), and the positive response with H[DI.sub.2]-HSA (lane 6) highlights not only the specificity of the antiserum for HDI hapten, but also its sensitivity by its ability to react with the hapten when present to the extent of 0.2% of the mass of the conjugate. Immunoassays for HDI adduct. We developed four immunoassays for biomonitoring HDI-adducted proteins present in fluids. We tested each to determine its sensitivity in detecting HDI adducts on the H[DI.sub.2]-HSA conjugate. An immunoblot method employed nitrocellulose, to which was applied H[DI.sub.2]-HSA (heated in the presence of DTT). We visualized adducts using 1:1,000 rabbit anti-HDI--conjugated KLH antiserum, followed by goat antirabbit IgG. As indicated in Figure 4, the antiserum detected from 0.031 to 4.0 [micro]g adducted protein. At concentrations < 0.031 [micro]g, staining was not distinguishable from that obtained with HSA. Using the equation provided in "Methods," the sensitivity of this method for detecting HDI adducted to protein is (0.03 x 2)/(66,500 x 100) = 9.3 nM. [FIGURE 4 OMITTED] We evaluated the Western blot method for its sensitivity in detecting the adduct. We applied quantities of H[DI.sub.2]-HSA conjugate (0.2-10 [micro]g) to gradient gels. Two bands were present in the HSA starting material (Figure 5A), and we detected HDI adducts on both bands (Figure 5B). The antiserum routinely detected 0.2 [micro]g of HDI-adducted HSA (lane 12), yielding a sensitivity of 600 nM HDI hapten. [FIGURE 5 OMITTED] We developed an ELISA inhibition method in which H[DI.sub.2]-HSA (heated under reducing conditions) was used to coat the microtiter plates. Addition of increasing amounts of this conjugate to the wells just before addition of the antiserum yielded a standard inhibition curve (Figure 6). The smallest quantity of inhibitor that could be detected was 0.25 [micro]g (7.6 pmol HDI hapten). The method can detect 300 nM HDI conjugate. [FIGURE 6 OMITTED] The final immunoassay developed was a three-antibody sandwich ELISA (TASE). In this procedure we used IgG (0.01 mg/mL) purified from the rabbit anti-HDI conjugated KLH antiserum to coat the plates. We added HDI conjugate to the IgG-coated wells. We detected bound HDI hapten using goat antihuman serum followed by peroxidase-labeled antigoat IgG. Detection of H[DI.sub.2]-HSA is shown in Figure 7. No binding was obtained with HSA. This assay has a detection limit of 0.003 [micro]g of HDI-adducted protein, yielding a sensitivity of 1.8 nM HDI hapten. [FIGURE 7 OMITTED] Discussion 1,6-Hexamethylene diisocyanate, also referred to as 1,6-diisocyanatohexane, is a widely used industrial chemical. Its use, coupled with its recognized acute toxicity and chronic consequences, requires careful monitoring of workplace environments. Rapid identification of exposures is essential to prevent adverse health effects. For isocyanates, monitoring the workplace may not be adequate because many exposures are intermittent and occur in small shops or garages where routine air monitors are not installed. Because biomonitoring can integrate exposures that result from diverse routes, such as dermal and inhalation, it presents an attractive supplement to detect workplace exposures. Reliable data regarding human exposure to diisocyanates are lacking. Monitoring airborne TDI concentration has not prevented adverse health effects in exposed workers (10). Biomonitoring may be a valuable supplement. For chemicals such as TDI, which function as haptens, measurement of the immune response, such as the amount of circulating antibody reactive with TDI-conjugated HSA, has been proposed as a means to biomonitor exposure (11). Animal studies have found a direct dependence of the immunologic response on the airborne isocyanate concentration (12). This approach has limitations, however, in that antibodies have not been detected in all exposed individuals (13), and the effect on antibody production of repeated exposures after variable periods of time remains to be clarified. Detection of bound diisocyanate, as we describe here, offers advantages when compared with biomonitoring for the immunologic response resulting from diisocyanate exposure, because the former measures only recent exposure (within the past several weeks) whereas the immune response may represent exposure occurring over previous months (11). Of foremost importance in designing a procedure for biomonitoring is adequate sensitivity of the assay. Immunoassays are known to have high sensitivity with antigen detection limits typically in the femtomole range (14). They have been used to study the mutagenic mutagenic inducing genetic mutation. and carcinogenic potential of diverse electrophilic chemicals and their metabolites by assessing DNA adducts (15). Protein adducts, most frequently employing hemoglobin and serum albumin, have been used to gauge exposure to benzene, aromatic amines, and other xenobiotics (16). Chromatographic methods are currently in use for biomonitoring diisocyanates. TDI and MDI have been detected as the corresponding diamines in acid hydrolyzed urine and blood specimens (3,5). A relationship has been shown between airborne isocyanate levels and concentrations of diamines in hydrolyzed urine from TDI-exposed workers. Using HPLC HPLC high-performance liquid chromatography. HPLC high performance liquid chromatography. HPLC High-performance liquid chromatography Lab instrumentation A highly sensitive analytic method in which analytes are placed and GC-MS GC-MS Gas chromatography-mass spectroscopy. See there. , detection limits in the biologic matrix of 10 nM have been reported (17). We report development of four types of immunoassay for detecting HDI adduct. All derive their specificity from the same polyclonal antiserum. By design, the isocyanate hapten is quantified irrespective of the biomolecule biomolecule /bio·mol·e·cule/ (-mol´e-kul) a molecule produced by living cells, e.g., a protein, carbohydrate, lipid, or nucleic acid. biomolecule a molecule produced by living cells, e.g. to which it is adducted. This is important because the in vivo bioreactant(s) is unknown. In vitro studies have shown that the electrophilic N=C=O moiety moiety: see clan. reacts rapidly with a variety of nucleophilic groups on amino acids such as terminal amino groups and [epsilon]-amino of lysine lysine (lī`sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. , thiol thiol: see mercaptan. in cysteine cysteine (sĭs`tēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer participates in the biosynthesis of mammalian protein. , phenolic phe·no·lic adj. Of, relating to, containing, or derived from phenol. n. Any of various synthetic thermosetting resins, obtained by the reaction of phenols with simple aldehydes and used as adhesives. hydroxyl group in tyrosine, and the imidazole imidazole /im·id·az·ole/ (im?id-az´ol) 1. a heterocyclic organic compound in which two of five ring atoms are nitrogen; used as an insecticide. 2. any of a class of antifungal compounds containing this structure. group in histidine histidine (hĭs`tĭdēn), organic compound, one of the 22 α-amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. (18,19). At pH 7.4 in 50% dioxane di·ox·ane n. A flammable, potentially explosive, colorless liquid, C4H8O2, used as a solvent for fats, greases, and resins and in various products including paints, lacquers, glues, cosmetics, and fumigants. , the HDI adduct with N-acetyl cysteine was unstable. Under physiologic conditions, the most likely HDI adducts with proteins are N-terminal amino acids and lysine residues (18). The specificity of the rabbit antiserum was of prime importance in developing the bioassays. We examined its cross-reactivity by testing antibody recognition of adducts formed from other diisocyanates (TDI and MDI), as well as adducts of electrophiles such as formaldehyde and cyanuric chloride. The lack of antibody reaction with any of these hapten-HSA conjugates indicates that antibody specificity is not directed solely to the urea group. The specificity observed in the current study, together with previous findings (20), indicates that hexyl hex·yl n. The univalent hydrocarbon radical, C6H13. moieties comprise a portion of the epitope epitope: see immunity. . The true epitopes in diisocyanate-conjugated proteins remain unknown, and several different epitopes may exist. This issue is the subject of ongoing studies. Two of the immunoassays (ELISA inhibition and TASE) detect HDI hapten bound to small molecules (acid soluble amino acids or peptides) as well as to proteins. Recent studies from our laboratory and elsewhere have indicated a favorable, rapid, and reversible reaction of TDI with the sulfhydryl moiety of glutathione. We detected rapid transcarbamoylation upon addition of a sulfhydryl-containing protein to the bis(S-glutathionyl) adducts of TDI and HDI (21,22). Such adducts, if present in biologic fluids, would be detected by the ELISA inhibition assay and TASE described here. Workers exposed to airborne TDI had TDI in plasma covalently bound with albumin (23). For this reason, we used the albumin conjugate of HDI to develop the bioassays. To parallel the environmental situation further, we synthesized a conjugate that contained a minimum number of HDI adducts. H[DI.sub.2]-HSA was used to develop each of the assays. We found it necessary to pretreat pre·treat tr.v. pre·treat·ed, pre·treat·ing, pre·treats To treat (wood or fabric, for example) beforehand. pre·treat the HDI conjugates with dithiothreitol before their use. In the immunoblot procedure, the rabbit antiserum to HDI-adducted KLH did not detect conjugates with fewer than four HDI haptenic moieties unless the conjugates were heated under reducing conditions (data not shown). The same effect was reported by Jin et al.(7). The reduction of disulfide bonds by DTT likely provides greater accessibility of the antibodies to HDI-adducted regions of the protein. We compared the four immunoassays for sensitivity and other attributes important in biomonitoring procedures. As indicated in Table 2, the assays differ in sensitivity by approximately two orders of magnitude. As currently performed, ELISA inhibition and TASE have adequate sensitivity to detect workplace isocyanate concentrations. Moreover, the immobilized immunoglobulins in the latter assay can be an affinity surface to concentrate HDI-adducted molecules from biologic fluids, thereby significantly increasing the sensitivity of the procedure. The assays described here possess other advantages when compared with current chromatographic methods. The chromatographic determinations rely on acid hydrolysis of biologic fluids to release the diamine. Strong acid is needed, and the amount of amine detected depends on the hydrolysis conditions used. By contrast, the immunoassays require only mild heating of the samples under denaturing conditions. The treated plasma is added directly to the microtiter wells (or nitrocellulose membrane) without need for acid hydrolysis, extraction, or derivatization of product. Because none of the four immunoassays has been optimized, modification of various parameters may further enhance the sensitivity of each of them. Future work in our laboratory will directly compare findings from the analytic chromatographic methods with results from our immunobioassays to assess the applicability of these immunoassays. Thereafter, protocols applicable for sampling, collecting, and testing in the occupational and environmental setting will be developed. In summary, we have developed four immunoassays for use in biomonitoring of HDI exposure. The sensitivity of the assays range from 1.8 to 600 nM HDI adduct. By comparison with current analytic methods of biomonitoring for this diisocyanate, the immunoassays are faster, easier, and less costly and require less technical expertise. Most important, they can be employed for routine screening for total HDI exposure and are applicable to industrial surveillance programs to prevent adverse biologic consequences.
Table 1. Characterization of HSA adduction by HDI using
spectroscopic and immunologic procedures.
Number of HDI adducts bound
to HSA as determined by
Molar
ratio of
reactants Western blot
Conjugate HDI/HSA MALDI-TOF-MS TNBS immunoassay
A 45.6 20.6 [+ or -] 0.9 (a) 12 (a) ++++ (b)
B 2.5 2.0 [+ or -] 0.9 ND +++
C 0.8 0.1 [+ or -] 0.9 ND +
Abbreviations: ND, not detected; TNBS, trinitrobenzenesulfonic acid.
(a) Only portion soluble at pH 4 was analyzed.
(b) Number of plus signs (+) denotes relative stain intensity,
scale + to ++++.
Table 2. Comparison of the immunoassays for detection of HDI adducts.
Sensitivity
Immunoassay (nM HDI adduct) Advantages Disadvantages
Western blot 600 Indicates the Time consuming.
number of carrier
proteins adducted
and their
molecular sizes.
ELISA 300 Detects HDI Time consuming.
Inhibition moieties irrespec- Does not indicate
tive of the nature or number
carrier protein. of carrier
molecules.
Immunodot 9 Rapid, technically Does not indicate
simple procedure the nature or
for screening a number of carrier
large number of molecules.
samples.
TASE 1.8 Readily Suitable for
quantifiable, screening a large
highly sensitive. number of
samples. Does not
indicate the
nature or number
of carrier
molecules.
REFERENCES AND NOTES (1.) Karol MH, Hauth BA, Riley E, Magreni CM. Dermal contact with toluene diisocyanate (TDI) produces respiratory tract hypersensitivity in guinea pigs. Toxicol Appl Pharmacol 58:221-230 (1981). (2.) Tinnerberg H, Skarping G, Dalene M, Hagmar L. Test chamber exposure of humans to 1,6-hexamethylene diisocyanate and isophorone diisocyanate. Int Arch Occup Environ Health 67:367-374 (1995). (3.) Brorson T, Skarping G, Nielsen J. Biological monitoring of isocyanate and related amines. II. Test chamber exposure of humans to 1,6-hexamethylene diisocyanate (HDI). Int Arch Occup Environ Health 62:385-389 (1990). (4.) Sepal O, Henschler D, Sabbioni G. Albumin adducts, hemoglobin adducts and urinary metabolites in workers exposed to 4,4'-methylenediphenyl diisocyanate. Carcinogenesis 16:2583-2587 (1995). (5.) Dalene M, Skarping G, Lind P. Workers exposed to thermal degradation products of TDI- and MDI-based polyurethane: biomonitoring of 2,4-TDA, 2,6-TDA, and 4,4'-MDA in hydrolized urine and plasma. Am Ind Hyg Assoc J 58:587-591 (1997). (6.) Snyder SL, Sobocinski PZ. An improved 2,4,6-trinitrobenzenesulfonic acid method for the determination of amines. Anal Biochem 64:284-288 (1975). (7.) Jin R, Day BW, Karol MH. Toluene diisocyanate protein adducts in the bronchoalveolar lavage of guinea pigs exposed to vapors of the chemical. Chem Res Toxicol 6:906-912 (1993). (8.) McKinney MM, Parkinson A. A simple, non-chromatographic procedure to purify immunoglobulins from serum and ascites Ascites Definition Ascites is an abnormal accumulation of fluid in the abdomen. Description Rapidly developing (acute) ascites can occur as a complication of trauma, perforated ulcer, appendicitis, or inflammation of the colon or other fluid. J Immunol Methods 96:271-278 (1987). (9.) Sashidhar RB, Capoor AK, Ramana D. Quantitation of [epsilon]-amino groups using amino acids as reference standards by trinitrobenzene tri·ni·tro·ben·zene n. A yellow crystalline compound, C6H3(N3O2)3, derived from trinitrotoluene and used as an explosive. sulfonic acid. J Immunol Methods 167:121-127 (1994). (10.) Mapp CE, Butcher BT, Fabbri LM. Polyisocyanates and their prepolymers. In: Asthma in the Workplace (Bernstein IL, Chan-Yeung M, Malo JC, Bernstein DI, eds). New York:Marcel Dekker, Inc., 1999;457-478. (11.) Karol MH, Thorne PS, Hillebrand JA. The immune response as a biological indicator of exposure. In: Occupational and Environmental Chemical Hazards. Chichester, UK: Ellis Horwood Limited, 1987;86-90. (12.) Karol MH. Concentration-dependent immunologic response to toluene diisocyanate (TDI) following inhalation exposure. Toxicol Appl Pharmacol 68:229-241 (1983). (13.) Karol MH, Tollerud DJ, Campbell TP, Fabbri L, Maestrelli P, Saetta M, Mapp CE. Predictive value of airways hyperresponsiveness and circulating IgE for identifying types of responses to toluene diisocyanate inhalation challenge. Am J Respir Crit Care Med 149:611-615 (1994). (14.) Harlow E, Lane D. Antibodies: A Laboratory Manual. New York:Cold Spring Harbor Laboratory  The Cold Spring Harbor Laboratory , 1988.(15.) Turteltaub KW, Mani Mani (mä`nē): see Manichaeism. Mani or Manes or Manichaeus (born April 14, 216, southern Babylonia—died 274?, Gundeshapur) Persian founder of Manichaeism. C, Dingley KH, Bench G, Mauthe RJ. 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. using accelerator mass spectrometry accelerator mass spectrometry n. Mass spectroscopy in which a particle accelerator is used to disassociate molecules, ionize atoms, and accelerate the ions. . In: Biomarkers: Medical and Workplace Applications (Mendelsohn ML, Mohr LC, Peeters JP, eds). Washington, DC:Joseph Henry Press, 1998;99-114. (16.) Miksche LW, Lewalter J. Risk assessment biomarkers for alkylating agents and aromatic amines based on a reference value concept, in: Biomarkers: Medical and Workplace Applications (Mendelsohn ML, Mohr LC, Peeters JP, eds). Washington, DC:Joseph Henry Press, 1998;155-165. (17.) Brunmark P, Persson P, Skarping G. Determination of 4,4'-methylenedianiline in hydrolysed human urine by micro liquid chromatography with ultraviolet detection. J Chromatogr 579:350-354 (1992). (18.) Mraz J, Bouskova S. 2-4-Toluenediisocyanate and hexamethylene-diisocyanate adducts with blood proteins: assessment of reactivity of amino acid residues in vitro. Chem Biol Interact 117:173-186 (1999). (19.) Muller S. Peptide-carrier conjugation conjugation, in genetics conjugation, in genetics: see recombination. conjugation, in grammar conjugation: see inflection. . In: Synthetic Peptides as Antigens (Van Regenmortel MHV MHV mouse hepatitis virus. , Muller S, eds). Amsterdam:Elsevier, 1999;79-131. (20.) Karol MH. Respiratory effects of inhaled isocyanates. Crit Rev Toxicol 16:349-379 (1986). (21.) Day BW, Jin R, Basalyga DM, Kramarik JA, Karol MH. Formation, solvolysis sol·vol·y·sis n. A chemical reaction in which the solute and solvent react to form a new compound. [solv(ent) + -lysis. , and transcarbamoylation reactions of bis(S-glutathionyl) adducts of 2,4- and 2,6-diisocyanatotoluene. Chem Res Toxicol 10:424-431 (1997). (22.) Wilson D. Unpublished data. (23.) Lind P, Dalene M, Lindstrom V, Grubb A, Skarping G. Albumin adducts in plasma from workers exposed to toluene diisocyanate. Analyst 122:151-154 (1997). Ranulfo Lemus, (1) Lina Lukinskeine, (1) Mark E. Bier bier n. 1. A stand on which a corpse or a coffin containing a corpse is placed before burial. 2. A coffin along with its stand: followed the bier to the cemetery. , (2) Adam V. Wisnewski, (3) Carrie A. Redlich, (3) and Meryl H. Karol (1) (1) Department of Environmental and Occupational Health, University of Pittsburgh, Pittsburgh, Pennsylvania, USA; (2) Department of Chemistry, Carnegie Mellon University Carnegie Mellon University, at Pittsburgh, Pa.; est. 1967 through the merger of the Carnegie Institute of Technology (founded 1900, opened 1905) and the Mellon Institute of Industrial Research (founded 1913). , Pittsburgh, Pennsylvania, USA; (3) Department of Internal Medicine, Yale University, New Haven, Connecticut, USA Address correspondence to M.H. Karol, 130 DeSoto Street, Pittsburgh, PA 15261 USA. Telephone: (412) 624-3155. Fax: (412) 624-3040. E-mail: mhk+@pitt.edu This study was supported by ES 05651 and OH 3457. Received 5 February 2001; accepted 10 April 2001. |
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