Long-term persistence of BCG Pasteur in lungs of C57BL/6 mice following intranasal infection.

Different Mycobacterium bovis Bacillus Calmette-Guérin (BCG) vaccine substrains may vary in their efficacy. Here, we describe differences in disease progression and pathology in the lungs of female C57BL/6 mice infected intranasally with BCG Russia or BCG Pasteur and followed for 17 months. The lungs were investigated for bacillary load, histopathology and expression of cytosolic and secreted proteins by immunohistochemistry. BCG Russia was cleared from the lungs by 8 months. BCG Pasteur reached a low-level persistence at 8 months and remained at this level until the end of the experiment. BCG Pasteur induced greater pathology than BCG Russia, and there were more macrophage and lymphocyte infiltrates in animals infected with BCG Pasteur (P < 0.05). Bacterial growth correlated with cellular infiltration. All selected mycobacterial proteins were found to be expressed in the lesions by both BCG strains, and there were only minor variations between the strains. Furthermore, we identified isolated cells containing a high mycobacterial protein load in the normal-looking lung parenchyma. The infected cells in the healthy areas of the lung may represent the ability of mycobacteria to evade immune activation and thereby persist in the host. Clearance of BCG Russia indicates that a more effective and sterilizing immune response is established by this strain. On the other hand, the ability of BCG Pasteur to persist could be important for long-term protection against challenge with Mycobacterium tuberculosis.

HIV induces both a down-regulation of IRAK-4 that impairs TLR signalling and an up-regulation of the antibiotic peptide dermcidin in monocytic cells.

HIV-infected individuals have an increased risk of invasive bacterial infections, even at early clinical stages with relatively normal CD4(+) T-cell counts. The pathogenic mechanisms behind this are not fully understood. However, an increasing number of studies indicate that HIV may impair the innate immunity to bacteria by infecting key cells of the monocyte/macrophage lineage. In this study, the effects of HIV infection on the protein profile of undifferentiated monocyte-like THP-1 cells were examined by a mass spectrometric approach based on stable isotope labelling with amino acid in cell culture (SILAC). We identified 651 proteins, of which nine proteins were down-regulated and 17 proteins were up-regulated in HIV-infected THP-1 cells as compared to uninfected controls. Most remarkably, the IL-1 receptor associated kinase 4 (IRAK-4), which is essential for virtually all TLR signalling, was suppressed, whereas the precursor for the antibiotic peptide Dermcidin was up-regulated in HIV-infected cells. Upon stimulation of either TLR2 or TLR4, the HIV-infected THP-1 cells displayed reduced TNF-alpha secretion. The HIV-induced down-regulation of IRAK-4 was reconfirmed in monocyte-derived macrophage cell cultures. These data suggests that HIV may impair the TLR signalling cascade for pathogen recognition in cells of the monocyte/macrophage lineage and thus, may reduce the ability of the innate immune system to sense invading pathogens and initiate appropriate responses.

MPB70 and MPB83--major antigens of Mycobacterium bovis.

MPB70 and MPB83 are among the most studied mycobacterial antigens. They are highly homologous proteins within Mycobacterium tuberculosis complex members, and the orthologs in different members of the complex are virtually identical. They are major antigens highly expressed by Mycobacterium bovis and considerably less abundantly expressed by M. tuberculosis. There are two genes encoding these proteins within an operon of six genes. MPB70 and MPB83 are encoded as precursor proteins with typical signal peptides for export through the general secretory pathway. MPB70 is a soluble secreted protein cleaved by signal peptidase I, while MPB83 is a glycosylated lipoprotein processed by signal peptidase II and located at the surface, possibly with the lipid tail coupled to the N-terminal cysteine embedded in the mycobacterial outer membrane. The expression of these genes is controlled by the transcriptional regulator SigK, and a point mutation in SigK explains why some Bacille Calmette-Guérin (BCG) strains express only minute amounts of MPB70 and MPB83. BCG strains that have retained the high expression of MPB70 and MPB83 of wild type M. bovis are linked to a risk of BCG osteitis in <1-year-old children as a complication to BCG vaccination at birth. The proposed mechanism for this is based on homology of these proteins with osteoblast-specific factor II which is a homofilic adhesion protein expressed on osteoblasts in growing bone tissue. T-cell responses and antibody responses to these proteins have been extensively explored for sensitive and specific diagnosis of bovine tuberculosis.

Identification and Genotyping of the Etiological Agent of Tuberculous Lymphadenitis in Ethiopia

Background: In Ethiopia; little has been done to assess how Mycobacterium bovis has contributed to human tuberculosis; though the population routinely consumes unpasteurized milk and raw meat. The aim of this study was to determine the proportion of M. tuberculosis and M. bovis as etiological agents of tuberculous lymphadenitis (TBLN). Methods: Patients with lymphadenopathy (n = 171) were included in a cross-sectional study at Butajira Hospital; Southern Ethiopia. Lymph node biopsies were cultured. Patients' HIV status was identified. DNA from positive cultures was tested by PCR to identify M. bovis and M. tuberculosis. Isolates were genotyped by multiplex ligation-dependent probe amplification (MLPA) assay. Results: Among 171 patients; 156 had culture results. Of these; 107 (69) were positive for M. tuberculosis complex (MTC). Six of the 10 HIV-positive patients were culture positive. M. tuberculosis specific sequences were identified in the DNA of each of 100 samples as assessed by RD10 targeted PCR; and each of the 95 isolates exhibited the M. tuberculosis specific TbD1 deletion by MLPA analysis. No M. bovis was identified. These results indicate that all the isolates were modern M. tuberculosis strains. Furthermore; MLPA studies confirmed that 42of the isolates showed the Haarlem genotype and 12displayed sequences compatible with INH resistance. No mutations conferring resistance to ethambutol or rifampicin were detected. Conclusions: Our data showed that M. tuberculosis strains had common characteristics with strains causing pulmonary TB; which appears to be the main etiological agent of TBLN

Antigen analysis of Mycobacterium tuberculosis H37Rv culture filtrate proteins.

Culture filtrates of Mycobacterium tuberculosis H37Rv highly enriched with secreted proteins were used to identify antigens recognized by a serum pool from tuberculosis patients. Two different approaches were used to separate the culture filtrate protein mixture: (i) proteins were fractionated according to their hydrophobicity using an HPLC-C18 chromatography column followed by separation based on their molecular mass by SDS-PAGE and subsequent immunoblotting or (ii) proteins were separated by two-dimensional gel electrophoresis, based on their isoelectric point and their molecular mass. Twenty serologically reactive proteins were ultimately identified by both methods, including four novel antigens. Further, to estimate the immunogenicity of the identified culture filtrate proteins, the relative antibody quantities were measured using Image master software. Our results show that the antibodies against proteins belonging to the antigen 85 complex were the most abundant in the serum of patients with active tuberculosis. The most immunogenic proteins in terms of high antibody-to-protein-ratio were Rv3881c and three lipoproteins Rv0934 (the 38 kDa antigen), Rv0932c (pstS2), and Rv3006 (LppZ). Rv 3881c [corrected] is located close to the RD1 region and is also present in BCG. [corrected] The proteins from the M. tuberculosis H37Rv culture filtrate are strong candidates to be evaluated for improvement of the serodiagnostic tests of tuberculosis.

Antibody response to long-term and high-dose mould-exposed sawmill workers.

Exposure to moulds is thought to cause adverse health effects ranging from vague subjective symptoms to allergy and respiratory diseases. Until now, most studies have been emphasizing low levels of exposure. In Norwegian sawmills during the 1980s, extensively high spore counts up to 10(7) spores/m3 air were reported. By using serum samples obtained from sawmill workers during that period, in addition to control sera, we studied the antibody response of all classes and IgG subclasses to Rhizopus microsporus at different levels of exposure. Antigen specificity was further studied by Western blotting. Exposure to R. microsporus was accompanied by R. microsporus-specific antibody production against a wide range of antigenic components most likely of both protein and carbohydrate nature. Increasing levels of mould-specific IgG1, IgG2, IgG4 and IgA antibodies were associated with increased exposure, while the highest levels of exposure were associated with a somewhat reduced level of mould-specific IgE antibodies. In conclusion, the present study strongly suggests that high mould exposure can induce a strong IgG and IgA response in a dose-dependent manner.

Reduced apoptosis and increased inflammatory cytokines in granulomas caused by tuberculous compared to non-tuberculous mycobacteria: role of MPT64 antigen in apoptosis and immune response.

Inhibition of apoptosis of infected macrophages by pathogenic mycobacteria is suggested to be an important virulence mechanism, but little is known about the mycobacterial proteins involved in the inhibition of apoptosis. In this study we investigated differences in apoptosis and immune response and their correlation with the expression of Mycobacterium tuberculosis complex-specific secretory protein MPT64 in lesions caused by tuberculous or non-tuberculous mycobacteria by analysing the in situ expression of apoptosis-related proteins (FasL, Fas, Bax, Bcl-2), apoptotic cells, inflammatory cytokines [tumour necrosis factor (TNF)-alpha, interleukin (IL)-10, transforming growth factor (TGF)-beta, interferon (IFN)-gamma] and MPT64 antigen. The discrimination of mycobacteria was made by nested polymerase chain reaction (PCR) amplification of IS6110, which is specific for M. tuberculosis complex organisms. Forty-seven cases of lymphadenitis with necrotic granulomas were evaluated. With nested PCR, 30/47 cases were positive for M. tuberculosis. MPT64 antigen was detected specifically in the PCR-positive cases. Granulomas caused by tuberculous mycobacteria had fewer apoptotic cells, higher numbers of cells expressing TNF-alpha and TGF-beta and less extensive necrosis than granulomas caused by non-tuberculous mycobacteria. There was a significant negative correlation between apoptotic cells and the number of cells expressing MPT64 antigens, suggesting a role for MPT64 protein in the inhibition of apoptosis. Granulomas with higher amounts of MPT64 also showed a greater number of cells expressing TGF-beta than those with lower amounts of MPT64. In conclusion, this study supports the hypothesis that inhibition of apoptosis is a virulence mechanism for tuberculous mycobacteria. Correlation of MPT64 antigen with expression of macrophage deactivating cytokines and reduced apoptosis suggests its role in pathogenesis and bacillary persistence.

Progress in serodiagnosis of Mycobacterium tuberculosis infection.

One-third of the world population is estimated to have Mycobacterium tuberculosis infection. Accurate and timely identification of infected individuals is critical for treatment and control. The current diagnostic methods lack the desired sensitivity and specificity, require sophisticated equipment and skilled workforce or take weeks to yield results. Diagnosis of extrapulmonary TB, TB-HIV co-infection, childhood TB and sputum smear-negative pulmonary TB pose serious challenges. Interest in developing serodiagnostic methods is increasing because detection of antibody is rapid, simple and relatively inexpensive, and does not require a living cell for detection. Three types of tests, namely screening tests to overcome diagnostic delay, specific tests for diagnosis of extrapulmonary TB and other bacteriologically negative cases, and tests for vaccine-induced immunity need critical consideration. Several factors must be considered to develop serodiagnostic methods for TB. Antigen recognition by infected individuals is highly heterogeneous due to stage of disease, differences in HLA types, strain of the bacilli, health of the patient and bacillary load. With advances in molecular biological techniques, a number of novel antigens have been identified. Some of these antigens have proven valuable in detecting specific antibodies in some of the most challenging TB patients. The best example is a fusion protein containing several M. tuberculosis proteins (e.g. CFP-10, MTB8, MTB48, MTB81 and the 38-kDa protein) which showed encouraging results in detecting antibodies in sera of patients, including TB-HIV co-infection. This review presents progress made in the serodiagnosis of TB during the last decade.

Vaccine approaches to prevent tuberculosis.

Mycobacterium tuberculosis, the causative agent of tuberculosis (TB), is one of the main killers among infectious pathogens in the world and represents an important factor that sustain poverty in developing countries. Failure of the BCG vaccine to protect in endemic regions, and increasing problems with multi-drug-resistant TB calls for development of better vaccines to prevent reactivation of tuberculosis. It has been estimated that an effective post-exposure vaccine will prevent 30-40% of the TB cases. New vaccines should also prevent development of TB in HIV-infected individuals. Recent characterization of M. tuberculosis H37Rv by proteomic methods has revealed a large number of novel secreted proteins that should be investigated in mouse models for latent and slowly progressive TB. There is an important balance between control of infection and tissue destruction in TB, and M. tuberculosis has developed strategies to prevent immune-mediated sterilization. Central to this strategy is inhibition of apoptosis of macrophages. Development of novel vaccines should therefore take into consideration the effects on central markers to obtain a better picture of regulation of immunity, including FasL and Bcl-2 which are essential in regulation of apoptosis.

Correlating sequential homology of Mce1A, Mce2A, Mce3A and Mce4A with their possible functions in mammalian cell entry of Mycobacterium tuberculosis performing homology modeling.

OBJECTIVE: The striking homology of the Mycobacterium tuberculosis mammalian cell entry operons (mce1, mce2, mce3 and mce4) with other mycobacterial species and the proposed role of the mammalian cell entry protein 1A (Mce1A) of M. tuberculosis to facilitate invasion of host cells have led us to look into the finer details of these proteins in order to better understand their structure-function relationship. DESIGN: We performed sequential alignments and secondary structure predictions of Mce1A, Mce2A, Mce3A and Mce4A, and compared these results with results from homology modeling by fold prediction and threading. RESULTS: Sequential alignments showed that Mce1A and Mce2A are highly homologous, close to 70%, while the other combinations gave only about 30% similarities. The major parts of the proteins aligned without gaps and there were striking similarities by secondary structure predictions indicating that the proteins would have similar folds and to be alpha/beta proteins like the previously reported Mce1A model based on Colicin N. Fold prediction showed that the best templates for Mce2A were substrate-binding domain of DnaK and slow processing precursor penicillin acylase from Escherichia coli while the alpha-domains of Mce3A and Mce4A could both be modeled using the cytoplasmic domain of serine chemotaxis receptor as template. CONCLUSION: Although different templates had to be used to model the MceA proteins, functional information may be derived that is relevant for their overall function in M. tuberculosis. The beta-domain is probably involved in binding with the receptors on target cells while the alpha-domain is more likely to be involved in pore formation. As predicted from the folds, Mce3A and Mce4A model structures indicate a lipid bound conformation and therefore may be required in signaling events of the mammalian cell entry process.

Allergic sensitisation in tuberculosis and leprosy patients.

BACKGROUND: A negative association has been observed between infections and allergy in several studies. The aim of the present study was to examine whether tuberculosis and leprosy patients have more or fewer allergies than healthy individuals. METHOD: Sera from tuberculosis patients, leprosy patients and healthy controls were analysed by ELISA and Pharmacia Unicap for serological markers for allergy and mycobacterial infection. The serological markers for allergy were total IgE, specific IgE using Phadiatop and specific IgE to the dust mite allergen Dermatophagoides pteronyssinus 1 (Der p 1). Serological markers for mycobacterial infections included specific IgG to a mixture of bacille Calmette-Guérin culture filtrate antigens, to purified mannose-capped lipoarabinomannan (manLAM) and to purified secreted antigen 85B. RESULTS: Both tuberculosis and leprosy patients had significantly higher levels of total IgE than controls. Furthermore, a significantly higher level of specific IgE (Phadiatop) was also found in the tuberculosis patients compared with controls. A similar result, but not statistically significant, was observed for the leprosy group. Specific IgG to antigen 85B and to manLAM was found to be significantly higher in both tuberculosis and leprosy patients compared with controls. In addition, leprosy patients had significantly more IgG to the BCG culture filtrate antigen than controls. CONCLUSIONS: The results indicate that patients with mycobacterial infections have allergic sensitisation more frequently compared with healthy controls. This is seemingly in contrast with the notion that there is a negative association between allergy and infection ('hygiene hypothesis'). However, since only one in ten of those infected with Mycobacterium tuberculosis will develop the disease, patients with active mycobacterial disease represent a selected group. A similar relationship applies for leprosy. It is conceivable that those predisposed to allergy are less resistant to mycobacterial infections.

Immunoglobulin G antibodies against environmental moulds in a Norwegian healthy population shows a bimodal distribution for Aspergillus versicolor.

Immunoglobulin G (IgG) antibodies against moulds related to indoor dampness problems are used as biomarkers to indicate exposure. In the present study, we evaluated the frequency of mould exposure in an adult healthy population by examining levels of mould-specific IgG antibodies in Norwegian blood donors. Using enzyme-linked immunosorbent assay, 106 blood donor sera were analyzed for IgG antibodies to Aspergillus versicolor, Penicillium chrysogenum, Cladosporium herbarum, Stachybotrys chartarum and Fusarium oxysporum. The levels of specific IgG antibodies to P. chrysogenum, C. herbarum and S. chartarum correlated (r = 0.46-0.62). Responses to A. versicolor were considerably stronger than to the other moulds, and another 996 blood donor sera were analyzed for IgG antibodies to this mould. Women had significantly higher levels of specific IgG antibodies to A. versicolor than men. The concentration of A. versicolor-specific IgG antibodies showed a non-Gaussian, bimodal distribution profile, in which 12.5% were defined as positive to exposure. This suggests that significant mould exposure in a healthy population can be calculated from mean + 1SD. Western blotting analyses showed that antibody responses to A. versicolor were largely directed against carbohydrate antigens of unknown saccharides.

Mould extracts increase the allergic response to ovalbumin in mice.

BACKGROUND: Exposure to moulds in indoor air is thought to induce asthma in susceptible persons. Moulds may contain several potent allergens. However, more importantly, moulds may increase the allergic response to other allergens (adjuvant effect). Previously, we have found that a beta-1,3-glucan from the cell wall of the fungus Sclerotinia sclerotiorum increases the allergic response to the model allergen ovalbumin (OVA) in a mouse model. OBJECTIVE: In the present study, we wanted to confirm the adjuvant effect of another beta-1,3-glucan, MacroGard (MG) from baker's yeast in this model. More importantly, we wished to explore the putative effects of extracts from the moulds Cladosporium herbarum (CH) and Penicillium chrysogenum (PC) using the very same model as used to explore effects of beta-glucans. METHODS: Groups of eight Balb/c mice were injected with OVA alone, OVA+extract or OVA+MG, into one footpad. On day 21, all mice were reinjected with OVA, before exsanguination on day 26. The levels of OVA-specific IgE, IgG1 and IgG2a in serum were measured by ELISA. RESULTS: Compared with OVA alone, OVA+MG, OVA+CH extract and OVA+PC extract increased OVA-specific IgE and IgG1 levels significantly. For all groups, the levels of IgG2a anti-OVA remained similar to those of the OVA-alone group. CONCLUSIONS: Our results show that extracts from CH and PC, and the beta-1,3/1,6-glucan from baker's yeast have adjuvant effects on the allergic response in mice.

Immunodominant B-cell epitope in the Mce1A mammalian cell entry protein of Mycobacterium tuberculosis cross-reacting with glutathione S-transferase.

The TB1-5 76C monoclonal antibody raised against a synthetic 60-mer peptide in the N-terminal part of the Mce1A mammalian cell entry protein of Mycobacterium tuberculosis has previously been shown to react with a linear epitope in the KRRITPKD region, residues 131-138 in Mce1A, and to cross-react with Mce1F. Six additional monoclonal antibodies raised against the same peptide were also shown to cross-react with Mce1F. Four of them reacted with a linear epitope in the same area, indicating that this area is immunodominant but showed distinct differrences in fine specificity. Two monoclonal antibodies did not react with synthetic peptides from this region on the solid phase in enzyme-linked immunosorbent assay, indicating greater influence of conformation on reactivity. None of the monoclonal antibodies reacted with 14-mer synthetic peptides from the corresponding area in Mce2A, Mce3A, Mce4A, M. avium, M. smegmatis or M. leprae. The reaction pattern of the monoclonal antibodies was analysed in relation to our model of the Mce1A molecule (AK Das et al. Biochem Biophys Res Commun 2003;302:442-7). The epitope is located on the surface of Mce1A, at the distal beta-strand-loop region in the beta-domain supporting its potential role in promoting uptake of M. tuberculosis in host cells. Monoclonal antibody TB1-5 19C cross-reacted with glutathione S-transferase of Schistosoma japonicum containing a PKE triplet. Monoclonal antibody TB1-5 76C gave a major band at about 44 kDa in Western blotting of M. tuberculosis sonicate, whereas polyclonal rabbit anti-Mce1A peptide antibodies reacting with the extended TTPKNPTKRRITPKDVI area of Mce1A showed a distinct band above the 160 kDa molecular mass standard.

DNA injection in combination with electroporation: a novel method for vaccination of farmed ruminants.

Injection of plasmid DNA encoding antigens into rodents followed by electroporation improved the immune response when compared with injection without electroporation (Widera et al. J Immunol 2000;164:4635-40; Zucchelli et al. J Virol 2000;74:11598-607; Kadowaki et al. Vaccine 2000;18:2779-88). The present study describes the extension of this technology to farm animals, by injecting plasmid DNA encoding mycobacterial antigens (MPB70, Ag85B and Hsp65) into the muscles of goats and cattle using two different types of electrodes, both allowing DNA delivery at the site of electroporation. The animals were vaccinated under local anaesthesia without any observed immediate or long-term distress or discomfort, or any behavioural signs of muscle damage or pathological changes after the electroporation. DNA-injected and electroporated goats showed increased humoral response after the primary vaccination when compared with nonelectroporated animals. Improved T-cell responses following electroporation were observed in hsp65 DNA-vaccinated cattle. DNA injection with or without electroporation did not compromise the specificity of the tuberculin skin test. In conclusion, a protocol applying in vivo electroporation free of side effects to farmed ruminants was established. In addition, we show that DNA vaccination in combination with electroporation can improve the primary immune responses to the encoded antigens.

T- and B-cell epitopes in the secreted Mycobacterium bovis antigen MPB70 in mice.

MPB70 is a soluble secreted protein highly expressed in Mycobacterium bovis and strains of bacille Calmette-Guérin (BCG); as such, it is a candidate for subunit and DNA vaccines against tuberculosis. MPB70 was screened for T-cell epitopes in four different inbred mouse strains. Major histocompatibility complex (MHC) H-2b-expressing mice (C57BL/6) secreted interferon-gamma (IFN-gamma) after stimulation with peptides from the regions 1-20, 41-50, 81-110, 121-150 and 161-193 of the MPB70 sequence. H-2db mouse (B6D2) splenocytes secreted IFN-gamma after stimulation with some of the same peptides, whereas H-2d mice (BALB/c and DBA/2) did not secrete IFN-gamma upon stimulation with the peptides. Sera from H-2db mice immunized with native MPB70 in incomplete Freund's adjuvant (IFA), mpb70 DNA or live BCG Moreau were found to contain antibodies against the native MPB70 antigen. H-2db mice immunized with native MPB70 in IFA exhibited high titres of peptide-reactive immunoglobulin G1 (IgG1) antibodies, whereas DNA-immunized mice reacted with IgG2a antibodies against some of the same peptides. As some of the epitopes recognized by mouse T and B cells have previously been found to stimulate immune responses in humans, cattle and rabbits, we conclude that these epitopes may be good general epitopes for the stimulation of T- and B-cell responses and candidates for a DNA vaccine with a broad applicability.

Cross-reaction between mammalian cell entry (Mce) proteins of Mycobacterium tuberculosis.

In addition to the previously cloned Mce1A and Mce1E genes of the Mce1 operon of Mycobacterium tuberculosis (Ahmad et al. Scand J Immunol 1999;50:510-8), Mce1B, Mce1D and Mce1F were cloned and expressed as glutathione-S-transferase (GST) fusion proteins in recombinant Escherichia coli. Polyclonal antibodies against a predicted B-cell epitope of each of the Mce1 proteins of M. tuberculosis were produced by immunizing rabbits with synthetic peptides coupled to keyhole limpet haemocyanin. These antibodies reacted specifically with the corresponding fusion protein, except for GST-Mce1F. A mouse monoclonal antibody, TB1-5 76C, raised against a synthetic 60-mer peptide corresponding to the residues 106-165 in the N-terminal part of Mce1A, reacted strongly with GST-Mce1A. The antibody cross-reacted with GST-Mce1F, but not with the other recombinant GST-Mce1 fusion proteins or free GST. Bioinformatic analysis revealed only slight homology between Mce1A and Mce1F, along the length of the polypeptide chains. Higher homology was found between the residues 106-165 of Mce1A and the residues 347-406, further into the mature Mce1F polypeptide chain. There was a striking, localized homology, indicating that the epitope reacting with the monoclonal antibody TB1-5 76C may be narrowed to the KRRITPKD region, the residues 131-138 in Mce1A corresponding to the residues 372-379 in Mce1F. This was confirmed in enzyme-linked immunosorbent assay, showing binding of TB1-5 76C to a 17-mer synthetic peptide containing the KRRITPKD sequence.

Generation of antibodies to the signal peptide of the MPT83 lipoprotein of Mycobacterium tuberculosis.

The mpt83 gene (Rv2873) encodes the exported MPT83 lipoprotein of Mycobacterium tuberculosis. The corresponding identical mpb83 gene of Mycobacterium bovis is expressed to varying extents in different substrains of M. bovis Bacille Calmette Guerin (BCG), BCG Tokyo and BCG Moreau being high producers and BCG Danish 1331, a low producer of the MPB83 protein. Immunization with the 13-mer N-terminal part of the signal peptide of MPT83, MINVQAKPAAAASC, coupled to keyhole limpet haemocyanin (KLH) through the added C-terminal cysteine resulted in rapid antibody formation monitored by enzyme-linked immunosorbent assay (ELISA) with free immunizing peptide on the solid phase. In ELISA, with four 20-mer overlapping peptides covering the N-terminal part of the MPT83 sequence, three polyclonal rabbit antisera reacted only with the N-terminal peptide. Antigenic signal peptide could not be detected in sonicates of BCG Tokyo and BCG Moreau. After SDS-PAGE and blotting, the antibodies reacted with sonicates of recombinant Escherichia coli containing the entire mpt83 gene including the signal sequence, but not with the 22 kDa form of native MPB83 purified from BCG culture filtrate. In partition chromatography the recMPT83 partitioned in the water phase while 26 kDa MPB83 in BCG culture filtrate partitioned in the lipid phase confirming that lipidation at the N-terminal cysteine residue occurs after the splitting of the polypeptide chain by signal peptidase II.