Serological Analysis by Enzyme-Linked Immunosorbent Assay Using Recombinant Antigen LipL32 for the Diagnosis of Swine Leptospirosis

Leptospirosis is an important global zoonotic disease caused by pathogenic Leptospira spp. species. Swine leptospirosis has a major economic impact because pigs are sources of animal protein and by-products. The signs of swine leptospirosis are abortion, stillbirth, birth of weak or ill piglets, appearing 14–60 days after infection. The reference method for diagnosis of leptospirosis is the microscopic agglutination test (MAT), in which serum samples are reacted with live antigen suspensions of leptospiral serovars. However, MAT is laborious and time consuming as a diagnostic procedure when dealing with a large number of samples; therefore, efforts are being made to develop novel, sensitive, and specific diagnostic tests for leptospirosis. In this study, a recombinant LipL32 based on enzyme-linked immunosorbent assay (rLipL32/ELISA) was evaluated as a screening test for the detection of pathogenic leptospiral-specific antibodies. A total of 86 swine serum samples tested by MAT were used to develop rLipL32/ELISA. Compared to positive and negative sera tested by MAT, rLipL32/ELISA showed 100 % sensitivity, 85.1 % specificity, and 91.86 % accuracy. No positive reaction for other bacterial diseases (enzootic pneumonia and brucellosis) was observed. The rLipL32/ELISA reported in this study is a specific, sensitive, and convenient test for the detection of antibodies against swine leptospiral infection and can be used as a rapid screening test in epidemiological surveys.     

Serological Diagnosis of Human Babesiosis by IgG Enzyme-Linked Immunosorbent Assay

An enzyme-linked immunosorbent assay (ELISA) for the detection of IgG antibodies to Babesia microti antigen was developed. B. microti antigens were harvested from experimentally infected hamster blood and used as a coating antigen. The sensitivity and specificity of the IgG ELISA relative to immunofluorescent antibody assay (IFA) testing was 95.5% and 94.1%, respectively. According to the receiver operating characteristic curve analysis, the area under the curve was 0.987. No cross-reactivity of serum samples collected from patients infected with Toxoplasma gondii, Borrelia burgdorferi, Anaplasma phagocytophilum, Bartonella quintana, Dengue virus, or West Nile virus was detected. Cross-reactivity was observed with one of 35 sera from patients infected with Bartonella henselae. These results indicate that the established ELISA methods could be utilized as an accurate measure for the clinical diagnosis of human babesiosis.     

Inaccuracy of Enzyme-Linked Immunosorbent Assay Using Soluble and Recombinant Antigens to Detect Asymptomatic Infection by Leishmania infantum

Background

One of the most important drawbacks in visceral leishmaniasis (VL) population studies is the difficulty of diagnosing asymptomatic carriers. The aim of this study, conducted in an urban area in the Southeast of Brazil, was to evaluate the performance of serology to identify asymptomatic VL infection in participants selected from a cohort with a two-year follow-up period.

Methodology

Blood samples were collected in 2001 from 136 cohort participants (97 positive and 39 negatives, PCR/hybridization carried out in 1999). They were clinically evaluated and none had progressed to disease from their asymptomatic state. As controls, blood samples from 22 control individuals and 8 patients with kala-azar were collected. Two molecular biology techniques (reference tests) were performed: PCR with Leishmania-generic primer followed by hybridization using L. infantum probe, and PCR with specific primer to L. donovani complex. Plasma samples were tested by ELISA using three different antigens: L. infantum and L. amazonensis crude antigens, and rK39 recombinant protein. Accuracy of the serological tests was evaluated using sensitivity, specificity, likelihood ratio and ROC curve.

Findings

The presence of Leishmania was confirmed, by molecular techniques, in all kala-azar patients and in 117 (86%) of the 136 cohort participants. Kala-azar patients showed high reactivity in ELISAs, whereas asymptomatic individuals presented low reactivity against the antigens tested. When compared to molecular techniques, the L. amazonensis and L. infantum antigens showed higher sensitivity (49.6% and 41.0%, respectively) than rK39 (26.5%); however, the specificity of rK39 was higher (73.7%) than L. amazonensis (52.6%) and L. infantum antigens (36.8%). Moreover, there was low agreement among the different antigens used (kappa<0.10).

Conclusions

Serological tests were inaccurate for diagnosing asymptomatic infections compared to molecular methods; this could lead to misclassification bias in population studies. Therefore, studies which have used serological assays to estimate prevalence, to evaluate intervention programs or to identify risk factors for Leishmania infection, may have had their results compromised.     

Development and Evaluation of Capture Enzyme-Linked Immunosorbent Assays for Detection of Immunoglobulin G and M Antibodies to Group A Streptococcal Antigens

Capture enzyme-linked immunosorbent assays (ELISAs) were developed to detect immunoglobulin G and M antibodies to group A streptococcal (GAS) antigens, streptolysin O, streptokinase, and group A carbohydrate. The sensitivities and the specificities of the IgM capture ELISAs to each GAS antigen were high enough to distinguish the patients with GAS infections (diagnosed as GAS pharyngitis or scarlet fever) from the control groups (healthy people and patients with pharyngitis from whom GAS could not be isolated). On the other hand, the specificities of the IgG capture ELISAs were not very effective in diagnosis of GAS infections. When the capture ELISA and an indirect ELISA detecting IgM antibodies to group A carbohydrate were compared, false-positive reactions due to rheumatoid factor occurred in the indirect ELISA, but did not occur in the capture ELISA. These results indicate that the capture ELISA works better than the indirect ELISA in detecting the IgM antibody, and that the IgM capture ELISA to GAS antigen provides a rapid and highly reliable serodiagnosis for GAS infections employing only a single serum.     

The Diagnosis of Human Fascioliasis by Enzyme-Linked Immunosorbent Assay (ELISA) Using Recombinant Cathepsin L Protease

Background

Fascioliasis is a worldwide parasitic disease of domestic animals caused by helminths of the genus Fasciola. In many parts of the world, particularly in poor rural areas where animal disease is endemic, the parasite also infects humans. Adult parasites reside in the bile ducts of the host and therefore diagnosis of human fascioliasis is usually achieved by coprological examinations that search for parasite eggs that are carried into the intestine with the bile juices. However, these methods are insensitive due to the fact that eggs are released sporadically and may be missed in low-level infections, and fasciola eggs may be misclassified as other parasites, leading to problems with specificity. Furthermore, acute clinical symptoms as a result of parasites migrating to the bile ducts appear before the parasite matures and begins egg laying. A human immune response to Fasciola antigens occurs early in infection. Therefore, an immunological method such as ELISA may be a more reliable, easy and cheap means to diagnose human fascioliasis than coprological analysis.

Methodology/Principal findings

Using a panel of serum from Fasciola hepatica-infected patients and from uninfected controls we have optimized an enzyme-linked immunosorbent assay (ELISA) which employs a recombinant form of the major F. hepatica cathepsin L1 as the antigen for the diagnosis of human fascioliasis. We examined the ability of the ELISA test to discern fascioliasis from various other helminth and non-helminth parasitic diseases.

Conclusions/Significance

A sensitive and specific fascioliasis ELISA test has been developed. This test is rapid and easy to use and can discriminate fasciola-infected individuals from patients harbouring other parasites with at least 99.9% sensitivity and 99.9% specificity. This test will be a useful standardized method not only for testing individual samples but also in mass screening programs to assess the extent of human fascioliasis in regions where this zoonosis is suspected.     

Enzyme-Linked Immunosorbent Assays for the Specific and Sensitive Quantification of Methanosarcina mazei and Methanobacterium bryantii

Three microtitration plate enzyme-linked immunosorbent assays (ELISAs) have been developed: a competitive ELISA and a two-site (or indirect sandwich) ELISA for Methanosarcina mazei S6 and a two-site ELISA for Methanobacterium bryantii FR-2. The assays were sensitive, with limits of cell protein detection of 3 ng ml⁻¹, 5 ng ml⁻¹, and 50 ng ml⁻¹, respectively, and showed good precision. The M. mazei assays used monoclonal antibodies and were entirely species specific, showing no cross-reaction with methanogens of other genera or with other species of the same genus. The Methanobacterium bryantii assay, which used two polyclonal antisera, showed only a slight cross-reaction with one other Methanobacterium species but no cross-reaction with methanogens of other genera. The use of the ELISAs for quantitative analysis of mixed cultures and of sewage sludge samples was investigated. Sludge diluted at 1:10³ or more caused no significant interference in any of the three ELISAs. Various cultures of bacteria, methanogens, and nonmethanogens at a protein concentration of 50 μg ml⁻¹ showed no significant interference in the M. mazei competitive assay and the Methanobacterium bryantii two-site assay, although they did cause falsely low results in the M. mazei two-site assay.     

Comparison of PCR, Electrochemical Enzyme-Linked Immunosorbent Assays, and the Standard Culture Method for Detecting Salmonella in Meat Products

An electrochemical enzyme-linked immunosorbent assay (ELISA) coupled with flow injection analysis (ELISA-FIA) and a PCR-based method using ST11 and ST15 primers for detecting salmonellae in meat were evaluated in comparison with the International Organization for Standardization (ISO) culture method. The methods were applied to experimentally contaminated and naturally contaminated meat samples. The results showed that both ELISA-FIA and PCR allowed detection of salmonella in a product contaminated with a low number of the microorganisms (1 to 10 salmonellae/25 g) after only 5 h of incubation of preenrichment broth, and they were just as effective as the ISO method.     

Ultrasound Treatment for Harvesting an Aminopeptidase from Lactic Acid Bacteria and Quantitation of the Enzyme by Enzyme-Linked Immunosorbent Assays

Ultrasound treatment of Lactococcus lactis subsp. cremoris AM2 was optimized to release a maximum amount of intracellular aminopeptidase without modifying the antigenicity of the enzyme. The cells were sonicated three times for 30 s at 23 W. Antibodies produced against the aminopeptidase purified from L. lactis subsp. cremoris AM2 enabled us to use immunoblotting to detect the enzyme in the lysates of all of the lactococci tested but not in the lysates of Leuconostoc strains, lactobacilli, and Streptococcus salivarus subsp. thermophilus. A sandwich enzyme-linked immunosorbent assay (ELISA) was developed to quantify the purified aminopeptidase; the detection limit was 4 ng/ml. The aminopeptidase in the supernatant obtained after the ultrasound treatment of strain AM2 cells was detected with the ELISA starting with a total protein concentration of 200 ng/ml. The proportion of equivalent purified aminopeptidase in the supernatant of L. lactis subsp. cremoris AM2 was about 2% of the total protein. Similarly, the aminopeptidase was quantified in different lactococci; the percentages varied between 0.16 and 2%, depending on the strain. The aminopeptidase content in a mixture of several lactic bacteria was also determined with the sandwich ELISA.     

A Toolbox for Tuberculosis (TB) Diagnosis: An Indian Multi-Centric Study (2006-2008); Evaluation of Serological Assays Based on PGL-Tb1 and ESAT-6/CFP10 Antigens for TB Diagnosis

Background

The aim of this multi-centric prospective study in India was to assess the accuracy of a serological test as an additional tool for diagnosing active tuberculosis (ATB). In particular, an assay based on ELISA using a phenolic glycolipid (PGL-Tb1) or a fusion protein (ESAT-6/CFP10) was compared to the tuberculin skin test (TST) and the microbiological results according to HIV status.

Methods

Individuals with and without ATB and HIV infection were enrolled. Serology and TST results were analyzed per se and in combination with the microbiological data.

Results

Among the 778 ATB patients, 102 were HIV-infected, 316 HIV-uninfected and 360 had an HIV-unknown status. Of the 945 non-ATB subjects, 559 were at low risk (community adults) and 386 at high risk of M. tuberculosis exposure. Among those with ATB, the sensitivity of ELISA-PGL-Tb1 for ATB was higher than that of ELISA-ESAT-6/CFP10, both in HIV-infected (72.3% versus 63.7%, p = 0.29) and HIV-uninfected/HIV-unknown groups (40.5% versus 28.6%; p<0.0001), whereas the specificity was around 91% for both tests. Sensitivity for ATB increased when the results of the two ELISA were combined, reaching 75.5% in the HIV-infected and 50.9% in the group of HIV-uninfected/HIV-unknown ATB, with a significant decrease of the global specificity (83.9%). Analyzing the ELISA results with the microbiological results, we observed that the sensitivity of both serology tests was independent of the ATB patients'' smear microscopy (SM) status and grade. Combining the results of SM with both ELISA, the detection of ATB patients significantly increased (p<0.0001), particularly in those with extrapulmonary TB (up to 45.1%) or HIV infection (up to 83.3%). No significant association was observed between TST and serology results.

Conclusions

In this prospective multi-centric study, the combination of two rapid tests, such as SM and serology, might be useful in detecting ATB, especially in HIV-infected patients.     

Evaluation of Diverse Antisera, Conjugates, and Support Media for Detecting Bradyrhizobium japonicum by Indirect Enzyme-Linked Immunosorbent Assay

We evaluated three antisera and four enzyme conjugates for the detection of Bradyrhizobium japonicum by an indirect enzyme-linked immunosorbent assay in microtiter plates. Nitrocellulose membrane sheets were then evaluated as an alternative support medium by using some combinations. Partially purified immunoglobulin G (IgG) or unpurified antisera to strain USDA 110 raised in rabbits, goats, or sheep was reacted in microtiter plates with alkaline phosphatase conjugated to protein A, goat anti-rabbit (GAR), sheep anti-rabbit (SAR), or rabbit anti-goat (RAG) IgG. Cultures or nodules containing homologous rhizobia were detected with equal sensitivity when protein A, GAR, or SAR was reacted with 5 μg of protein IgG per ml or a 1:800 titer of antisera from rabbits, but not goats or sheep. RAG reacted with IgG or antisera from goats or sheep. The detection limit was 2 × 10⁵ rhizobia per well. Rhizobia were spotted on nitrocellulose sheets as an alternative support medium, followed by soaking in 5 μg of protein per ml as IgG and 1:4,000 dilutions of protein A or GAR conjugate. Rhizobia in serogroup 110 were detected with the dye combination Nitro Blue Tetrazolium-5-bromo-4-chloro-3-indolyl phosphate (NBT-BCIP), and rhizobia in serogroup 122 were detected with fast red-naphthol phosphate (FR-NP). At the conclusion of the 5-h assay, purple (NBT-BCIP) or red (FR-NP) spots were visible in positive reactions. The sensitivity of detection was about 1,000 rhizobial cells or 3 μg of nodules tissue.     

Detection of Campylobacter jejuni and Campylobacter coli in Environmental Waters by PCR Enzyme-Linked Immunosorbent Assay

A PCR enzyme-linked immunosorbent assay (ELISA) assay was applied to the detection of Campylobacter jejuni and Campylobacter coli in environmental water samples after enrichment culture. Bacterial cells were concentrated from 69 environmental water samples by using filtration, and the filtrates were cultured in Campylobacter blood-free broth. After enrichment culture, DNA was extracted from the samples by using a rapid-boiling method, and the DNA extracts were used as a template in a PCR ELISA assay. A total of 51 samples were positive by either PCR ELISA or culture; of these, 43 were found to be positive by PCR ELISA and 43 were found to be positive by culture. Overall, including positive and negative results, 59 samples were concordant in both methods. Several samples were positive in the PCR ELISA assay but were culture negative; therefore, this assay may be able to detect sublethally damaged or viable nonculturable forms of campylobacters. The method is rapid and sensitive, and it significantly reduces the time needed for the detection of these important pathogens by 2 to 3 days.     

An Automated ELISA Using Recombinant Antigens for Serologic Diagnosis of B Virus Infections in Macaques

B virus (Macacine herpesvirus 1) occurs naturally in macaques and can cause lethal zoonotic infections in humans. Detection of B virus (BV) antibodies in macaques is essential for the development of SPF breeding colonies and for diagnosing infection in macaques that are involved in human exposures. Traditionally, BV infections are monitored for presence of antibodies by ELISA (a screening assay) and western blot analysis (WBA; a confirmatory test). Both tests use lysates of infected cells as antigens. Because WBA often fails to confirm the presence of low-titer serum antibodies detected by ELISA, we examined a recombinant-based ELISA as a potential alternative confirmatory test. We compared a high-throughput ELISA using 384-well plates for simultaneous antibody screening against 4 BV-related, recombinant proteins with the standard ELISA and WBA. The recombinant ELISA results confirmed more ELISA-positive sera than did WBA. The superiority of the recombinant ELISA over WBA was particularly prominent for sera with low (<500 ELISA units) antibody titers. Among low-titer sera, the relative sensitivity of the recombinant ELISA ranged from 36.7% to 45.0% as compared with 3.3% to 10.0% for WBA. In addition, the screening and confirmatory assays can be run simultaneously, providing results more rapidly. We conclude that the recombinant ELISA is an effective replacement for WBA as a confirmatory assay for the evaluation of macaque serum antibodies to BV.Abbreviations: BV, B virus (Macacine herpesvirus 1); EU, ELISA units; g, glycoprotein; HSV, herpes simplex virus; tELISA, titration ELISA; UN, uninfected; WBA, western blot analysisB virus (BV; Macacine herpesvirus 1) is a member of the genus Simplexvirus, subfamily Alphaherpesvirinae and family Herpesviridae. The virus occurs naturally in macaques (Macaca spp.) and causes a lethal zoonotic infection in 80% of untreated humans. Because biomedical professionals working with macaques, their cells, or tissues are at risk for becoming infected with BV, it is important to know the status of macaques involved in potential BV exposures. Although cases of BV infection after encounters between tourists and macaques have not been reported, any event that involves direct or fomite-associated contact with macaques has inherent risks. Identification of zoonotic BV infection through the detection of antibodies enables timely antiviral intervention, which is critical to reduce or prevent morbidity and mortality. Similarly rapid detection is important to maintain the biointegrity of SPF captive macaque colonies. The identification of BV in clinical specimens is achieved by using cell culture, PCR, or antibody detection methods. Because BV is shed only rarely from peripheral sites, the identification of BV infection in monkeys and humans currently is based on antibody detection (serology).^14,23,28In our laboratory, current serological diagnosis for B virus infections has been based on 2 principal tests: a titration-based (that is, traditional) ELISA (tELISA) as a screening test and western blot analysis (WBA) as a confirmatory test. Each test uses quality-controlled BV antigens that are prepared from lysates of infected cells.^20,22,23 Because BV is the only simplex virus in the Alphaherpesvirinae subfamily that is known to infect macaques,^14,28 antibodies interacting with BV antigens are used to indicate BV infection and not an infection due to a crossreacting virus. In practice, tELISA has identified numerous BV antibody-positive sera, the majority of which are low-titer sera from SPF colonies, which fail to be confirmed by WBA, and therefore, are classified as false positives.²³ We, therefore, searched for other approaches that could be used for confirmation of tELISA results. One reasonable option was the use of BV recombinant proteins as antigens. Numerous investigators have used recombinant-based assays for routine diagnosis of infections with viruses, including cytomegalovirus,³⁶ Epstein–Barr,⁶ herpes simplex (HSV1 and HSV2)^{2,3,17,31,32,34} Crimean–Congo hemorrhagic fever,¹⁰ HIV,³⁶ dengue,^5,11,27 hepatitis C,²⁴ hepatitis B,⁸ West Nile,²⁶ influenza,¹⁶ Ebola, and Marburg³³ viruses.Screening for the presence of serum IgG molecules against an array of defined and purified recombinant antigens has distinct advantages over assays that use the entire complement of viral antigens that are present in virus-infected cells. This is particularly true for pathogens that require BSL4 laboratories.^28,33 The pattern of reactivity obtained against each individual recombinant protein may have diagnostic value, by enabling identification of the stage of infection and the prediction of the prognosis of the disease.^3,4,18 However, using a single or only a few recombinant proteins as ELISA antigens can lead to a false-negative result if the antibody repertoire produced after BV infection reacts with other antigenic determinants that are not represented by the particular recombinant antigens used in the test.^{3,18,28,31,34}Several laboratories have examined the efficacy of using a single BV recombinant antigen (that is, glycoprotein D [gD]) for diagnosing BV infections in macaques^25,37 and humans,¹⁵ and we previously reported the diagnostic potential of an ELISA that incorporated several recombinant BV antigens.²⁸ We chose 4 recombinant BV glycoproteins as candidate antigens: peptides corresponding to the full-length extracellular domain of gB, gC, and gD and the membrane-associated segment of gG (gGm). Among these antigens, gGm was the most BV-specific, because it failed to crossreact with antibodies induced by HSV1 and HSV2. To validate the use of the recombinant BV antigens for the purpose of BV antibody detection, a panel of antibody-negative (n = 40) and antibody-positive (n = 75) macaque sera that were confirmed to be positive by tELISA and WBA were tested against the panel of the 4 B virus recombinant antigens, all of which showed fairly high sensitivity for detecting antibodies to BV.²⁸Here, we examine the performance of the recombinant-based ELISA (rELISA) for BV detection by using numerous (>1000) macaque sera, which have a broad range of antibody titers as determined by tELISA. Because manual ELISA to identify antibodies against an array of antigens are too laborious to be cost-effective, we adapted a previously described high-throughput automated single-antigen ELISA performed in 384-well plates to detect antibodies in macaque sera to multiple BV antigens.²³ This assay format has been adapted to include antigens from other alphaherpesviruses²³ and can be easily modified further for other viruses. We then compared the performance of the rELISA with that of whole-virus tELISA and WBA. The main goal of this study was to determine whether the 384-well rELISA is an effective alternative to WBA as a confirmatory assay for tELISA.     

An Enzyme-Linked Immunosorbent Assay (Elisa) for The Primary Diagnosis of Foot-And-Mouth Disease Characterization and Comparison with Complement Fixation

A sandwich type ELISA for foot-and-mouth disease (FMD) virus types O, A and C was established, using a combination of rabbit anti-146 S and guinea pig hyperimmune antibodies. This method was found to be highly efficient for the detection of both 146 S particles and 12 S subunits. The ELISA was approximately 500 times more sensitive than complement fixation (CF) when examining epithelial samples of FMD vesicles. An early primary diagnosis of FMD was obtained by both CF and ELISA in 19 out of 21 confirmed cases. The remaining 2 cases were initially negative in CF but positive in ELISA.     

Recombinant Antigens Expressed in Pichia pastoris for the Diagnosis of Sleeping Sickness Caused by Trypanosoma brucei gambiense

Background

Screening tests for gambiense sleeping sickness, such as the CATT/T. b. gambiense and a recently developed lateral flow tests, are hitherto based on native variant surface glycoproteins (VSGs), namely LiTat 1.3 and LiTat 1.5, purified from highly virulent trypanosome strains grown in rodents.

Methodology/Principal Findings

We have expressed SUMO (small ubiquitin-like modifier) fusion proteins of the immunogenic N-terminal part of these antigens in the yeast Pichia pastoris. The secreted recombinant proteins were affinity purified with yields up to 10 mg per liter cell culture.

Conclusions/Significance

The diagnostic potential of each separate antigen and a mixture of both antigens was confirmed in ELISA on sera from 88 HAT patients and 74 endemic non-HAT controls. Replacement of native antigens in the screening tests for sleeping sickness by recombinant proteins will eliminate both the infection risk for the laboratory staff during antigen production and the need for laboratory animals. Upscaling production of recombinant antigens, e.g. in biofermentors, is straightforward thus leading to improved standardisation of antigen production and reduced production costs, which on their turn will increase the availability and affordability of the diagnostic tests needed for the elimination of gambiense HAT.     

Diagnostic Accuracy of Recombinant Immunoglobulin-like Protein A-Based IgM ELISA for the Early Diagnosis of Leptospirosis in the Philippines

BackgroundLeptospirosis is an important but largely under-recognized public health problem in the tropics. Establishment of highly sensitive and specific laboratory diagnosis is essential to reveal the magnitude of problem and to improve treatment. This study aimed to evaluate the diagnostic accuracy of a recombinant LigA protein based IgM ELISA during outbreaks in the clinical-setting of a highly endemic country.Conclusions/SignificanceThe newly developed LigA-IgM ELISA is more sensitive than the whole cell-based IgM based ELISA. Although the final diagnosis must be validated by more specific tests, LigA-IgM ELISA could be a useful diagnostic test in a real clinical-setting, where diagnosis is needed in the early phase of infection.     

Characterization of Egg Yolk Antibodies for Detection and Quantification of Selenomonas ruminantium by Using an Enzyme-Linked Immunosorbent Assay

The specificity of polyclonal antibodies prepared against strains of Selenomonas ruminantium, the effect of assay conditions, and quantification of individual strains in mixed-cell suspensions of selenomonad strains were examined in this study. Whole-cell suspensions were prepared with pure cultures of S. ruminantium PC18, HD₄, GA192, and D. Each cell suspension was injected into a Leghorn laying hen, and polyclonal antibodies were harvested from eggs laid in week 3 or 7 following initial immunization. Antibodies made to the S. ruminantium strains readily discerned the homologous strain from the heterologous strains. Cross-reactivity among antibodies and the heterologous S. ruminantium strains ranged from 5 to 26%. Among non-S. ruminantium species, cross-reactivity of S. ruminantium antibodies was greatest with Selenomonas sputigena (3 to 34%) and Succinivibrio dextrinosolvens (0 to 37%). Antibodies made to strains GA192 and D were used to quantify a mixture of the two strains. Both antibodies responded to graded concentrations of the homologous antigen in the biculture mixtures in accord with the change in the direct cell counts for each strain (strain D, R² = 0.92; strain GA192, R² = 0.90). This enzyme-linked immunosorbent assay enabled concurrent and accurate quantification of two strains of S. ruminantium subsp. ruminantium in a mixed-cell suspension with a precision of much less than 1 order of magnitude.     

A 1-Hour Enzyme-Linked Immunosorbent Assay for Quantitation of Acrolein- and Hydroxynonenal-Modified Proteins by Epitope-Bound Casein Matrix Method

A simple and rapid enzyme-linked immunosorbent assay (ELISA) method for quantitation of acrolein and 4-hydroxy-2-nonenal (HNE)-modified proteins was developed. Microtiter plate wells were precoated and blocked simultaneously with epitope-bound bovine caseins as matrix proteins, and aldehyde-modified proteins were quantitated by a competition assay with a monoclonal antibody specific for acrolein-modified lysine or HNE-modified histidine epitopes. Minimal reaction times required for the coating/blocking; first monoclonal antibody and the peroxidase-conjugated second antibody binding steps were 3, 3, and 7 min, respectively, the former two steps being found to be or akin to diffusion-rate-limiting reactions. The convenient ELISA should find an application for analyses of the intricate processes involved in oxidative stress and carcinogenic insult. The epitope-attachment methodology may also be advantageous for the quantitation of various other biologically important haptenic molecules.     

Optimal Conditions for the Retrieval of CD4 and CD8 Antigens in Formalin-Fixed, Paraffin-Embedded Tissues

The effects of buffer, NaCl, EDTA, and urea on the retrieval of CD4 and CD8 antigens in formaldehyde-fixed, paraffin-embedded tissues with a microwave pressure-cooker were evaluated. The optimal retrieval conditions were found to be borate buffer at pH 8 containing 1 mM NaCl and 1 mM EDTA. Urea was found to be less effective.