Mycobacterium tuberculosis Rv2536 protein implicated in specific binding to human cell lines

The gene encoding the Mycobacterium tuberculosis Rv2536 protein is present in the Mycobacterium tuberculosis complex (as assayed by PCR) and transcribed (as determined by RT-PCR) in M. tuberculosis H37Rv, M. tuberculosis H37Ra, M. bovis BCG, and M. africanum strains. Rabbits immunized with synthetic polymer peptides from this protein produced antibodies specifically recognizing a 25-kDa band in mycobacterial sonicate. U937 and A549 cells were used in binding assays involving 20-amino-acid-long synthetic peptides covering the whole Rv2536 protein sequence. Peptide 11207 (161DVFSAVRADDSPTGEMQVAQY180) presented high specific binding to both types of cells; the binding was saturable and presented nanomolar affinity constants. Cross-linking assays revealed that this peptide specifically binds to 50 kDa U937 cell membrane and 45 kDa A549 cell membrane proteins.     

Epitope-tagging vectors for the expression and detection of recombinant proteins in mycobacteria

New tools are required to study the growing number of uncharacterised genes derived from genome sequence projects that are specific to bacterial pathogens such as Mycobacterium tuberculosis. We have developed a series of vectors that permit the specific detection of recombinant proteins expressed in mycobacterial species. Gene expression in these vectors is driven by the strong hsp60 promoter of Mycobacterium bovis BCG and detection of expressed products is facilitated by C-terminal fusion of residues 409-419 of the human c-myc proto-oncogene. Using the M. tuberculosis Ag85B as a reporter of gene expression, we demonstrate that the vectors permit the specific detection of recombinant products expressed in the host species M. bovis BCG. BCG over-expressing Ag85B was a potent inducer of Ag85B-specific T cells in immunised mice, indicating that the C-terminal c-myc tag did not alter the characteristics of the recombinant protein. The versatility of the epitope-tagging vectors was demonstrated by the efficient secretion and detection of recombinant products in BCG. The vectors described in this study will facilitate the expression of foreign proteins in mycobacterial host systems.     

Characterization of antigens recognized by new monoclonal antibodies raised against culture filtrate proteins of Mycobacterium bovis bacillus Calmette-Guérin

Effective protection against Mycobacterium tuberculosis may be achieved in experimental animals by immunization with proteins secreted by tuberculous bacilli in the extracellular milieu during growth. In this study, monoclonal antibodies were raised against Mycobacterium bovis bacillus Calmette-Guérin (BCG) culture filtrate proteins or live BCG, in an attempt to identify novel mycobacterial secretion antigens: the localization of the antigens recognized by the monoclonal antibodies within the mycobacterial cell was studied and interspecies reactivity was also investigated. The monoclonal antibodies obtained recognized proteins of molecular mass ranging from 5 to 82 kDa, with a prevailing frequency in the 30 kDa region. Three of the monoclonal antibodies recognized proteins present only in culture filtrates, one reacted with a cytoplasmic antigen, while the remaining antibodies recognized components which were mainly associated with the cell wall and the cytoplasmic membrane. The chemical nature and possible identity of the antigens was checked. Three monoclonal antibodies are likely to react with novel mycobacterial antigens of 5, 42 and 82 kDa, respectively.     

Production and characterization of monoclonal antibodies specific for Mycobacterium bovis

A series of monoclonal antibodies (MAbs), specific for Mycobacterium bovis and BCG strains, were tested extensively for cross-reactivity to a wide range of mycobacterial species using ELISA, Western blotting and dot-blot analysis. The MAbs bound specifically to M. bovis and BCG and showed limited cross-reactivity with some strains of M. tuberculosis. All these MAbs recognized a 22 kDa protein previously termed MPB70, and by competitive ELISA analysis appeared to detect at least three M. bovis-specific determinants on the MPB70 molecule.     

Introduction of 65 kDa antigen of Mycobacterium tuberculosis to cancer cells enhances anti-tumor effect of BCG therapy

Bacillus Calmette Guerin (BCG) immunotherapy has anti-tumorigenic effects against bladder cancer. To improve the efficacy of BCG therapy, we introduced the gene encoding the 65 kDa heat shock protein (hsp) of Mycobacterium tuberculosis into a mouse malignant melanoma cell line (B16). An expression vector harboring the 65 kDa antigen gene was transfected into B16 using Lipofectamine, then expression of the antigen was confirmed by RT-PCR and Western blotting. Several cell lines expressing 65 kDa antigen were established (B16/65 kDa). We also established a control cell line transfected with the vector alone (B16/con). All cell lines (B16, B16/con, B16/65 kDa) were injected intraperitoneally into syngeneic mice with or without BCG prior immunization and the development of tumor ascites was examined. To analyze the mechanism of the anti-tumor effect, CD4 T cells or CD8 T cells were depleted in vivo by administering the corresponding monoclonal antibody. B16/65k Da expressed the 65 kDa hsp of M. tuberculosis. The tumor growth of B16/65 kDa was slightly retarded in naive mice, but significantly inhibited by BCG. The anti-tumor effect was totally abrogated in mice deficient in CD4 T cells, suggesting that CD4 T cells are involved in this process. The 65 kDa hsp of M. tuberculosis was expressed after gene transduction in a malignant melanoma cell line and significantly enhanced the anti-tumor effect of BCG immunotherapy. CD4 T cells play an important role in this anti-tumor effect.     

Improving vaccines against tuberculosis

Tuberculosis remains a major cause of mortality and physical and economic deprivation worldwide. There have been significant recent advances in our understanding of the Mycobacterium tuberculosis genome, mycobacterial genetics and the host determinants of protective immunity. Nevertheless, the challenge is to harness this information to develop a more effective vaccine than BCG, the attenuated strain of Mycobacterium bovis derived by Calmette and Guérin nearly 90 years ago. Some of the limitations of BCG include the waning of the protective immunity with time, reduced effectiveness against pulmonary tuberculosis compared to disseminated disease, and the problems of a live vaccine in immuno-compromised subjects. Two broad approaches to vaccine development are being pursued. New live vaccines include either attenuated strains of Mycobacterium tuberculosis produced by random mutagenesis or targeted deletion of putative virulence factors, or by genetic manipulation of BCG to express new antigens or cytokines. The second approach utilizes non-viable subunit vaccines to deliver immunodominant mycobacterial antigens. Both protein and DNA vaccines induce partial protection against experimental tuberculosis infection in mice, however, their efficacy has generally been equivalent to or less than that of BCG. The comparative effects of cytokine adjuvants and vaccines targeting antigen presenting cells on enhancing protection will be discussed. Coimmunization with plasmid interleukin-12 and a DNA vaccine expressing Antigen 85B, a major secreted protein, was as protective as BCG. The combination of priming with DNA-85B and boosting with BCG was superior to BCG alone. Therefore it is possible to achieve a greater level of protection against tuberculosis than with BCG, and this highlights the potential for new tuberculosis vaccines in humans.     

Early appearing gamma/delta-bearing T cells during infection with Calmétte Guérin bacillus.

To search for a potential role of TCR gamma/delta T cells in host-defense against mycobacterial infection, we analyzed the kinetics, repertoire, specificity, and cytokine production of gamma/delta T cells in the peritoneal exudate cells (PEC), lymph node (LN) cells and spleen cells during an i.p. infection with a sublethal dose (5 x 10(5) of viable Bacillus Calmétte-Guérin (BCG) in mice. In the PEC on day 7 after infection, approximately 26% of the CD3+ cells were CD4-CD8-, most of which expressed TCR gamma/delta on their surface. However, the PEC on day 28 contained an increased number of alpha/beta T cells that were CD4+8- or CD4-8+ and the proportion of gamma/delta T cells in the PEC reciprocally decreased to 18% of the CD3+ cells. The kinetics of gamma/delta and alpha/beta T cells in the LN during BCG infection showed in much the same pattern as that seen in the PEC. When purified CD4-CD8- cells in the LN on day 7 after BCG infection were cultured with sonicated BCG lysate, PPD derived from Mycobacterium tuberculosis or recombinant 65 kDa heat shock protein derived from Mycobacterium bovis, the gamma/delta T cells on this stage significantly proliferated and secreted IL-2 in response to sonicated BCG lysate and PPD but not to 65 kDa heat shock protein. V gene segment usage analysis with PCR method revealed that purified protein derivative-reactive gamma/delta T cells preferentially used V gamma 1/2/V delta 6, whereas gamma/delta T cells polyclonally expanded in response to the BCG lysate. These results suggest that gamma/delta T cells specific for mycobacterial antigens preceding alpha/beta T cells in appearance during infection may serve as a first line of defense against mycobacterial infection.     

The secreted antigens of Mycobacterium tuberculosis and their relationship to those recognized by the available antibodies

Proteins secreted by strains of Mycobacterium tuberculosis during short-term, zinc-sufficient batch culture were identified in order to define antigens likely to be relevant to the pathogenesis of human disease. [35S]Methionine-labelled proteins in supernatants of 4-7 d cultures were separated by PAGE under both denaturing and non-denaturing conditions, and the position of labelled material was determined. Secreted protein patterns of M. tuberculosis were quite similar to those of Bacillus Calmette-Guérin (BCG) but differed by the absence of the 46 kDa dimeric protein specific to BCG and by the presence in large amounts of a 23 kDa protein which, when denatured, gave 13 kDa subunits. This 13 kDa subunit protein constituted up to 20% of secreted proteins in classical strains of M. tuberculosis of phage type B but was not detected in phage type I strains from South India. This may be relevant to the different pathogenicity of these strains. Western blot analysis showed that antigens defined in supernatants of short-term (3 d) cultures of M. tuberculosis constituted a small subset of those seen in supernatants of organisms cultured for longer periods. One of the secreted proteins has the interesting property of binding to fibronectin. The available monoclonal antibodies and antisera have been used to identify lines on immunoblots corresponding to the secreted/released antigens of M. tuberculosis. The present findings suggest that there are major secreted antigens to which antibodies do not yet appear to have been produced experimentally.     

Low molecular mass protein patterns in mycobacterial culture filtrates and purified protein derivatives

Mycobacterial polypeptides from 2 kDa to 14 kDa may be involved in host response to infection and be useful for new diagnostics and vaccines. Tris-tricine SDS-polyacrylamide gel electrophoresis separation of proteins in tuberculin purified protein derivative (PPD) and in 6-8-week culture filtrates of Mycobacterium tuberculosis, Mycobacterium bovis BCG, and other Mycobacterium species demonstrated as many as 10 low molecular mass bands. Common and distinct bands were observed among different species and PPD. These low molecular mass culture filtrate proteins may represent potential diagnostic reagents and vaccines for Mycobacterium tuberculosis.     

Diagnosis of mycobacterial infections by PCR and restriction enzyme digestion

A method for the diagnosis of mycobacterial infections by PCR amplification followed by selective restriction enzyme digestion of the PCR product was developed. The amplified DNA sequence used in this study occurs within the gene encoding for the mycobacterial 65 kDa heat shock protein (Hance et al. 1989), which is found in all mycobacteria. However, there are minute differences in the amplified sequence from the Mycobacterium tuberculosis complex compared with the corresponding sequence from the Mycobacterium avium complex. These differences made it possible to rapidly identify to which mycobacterial complex a particular sample belonged by restriction enzyme digestion of the PCR product. A total of 66 samples were tested and all of them were correctly identified. This and similar methods should provide a sensitive, specific and rapid (within 12 h) way of diagnosing mycobacterial infections to the species level.     

Association of a macrophage galactoside-binding protein with Mycobacterium-containing phagosomes

Mycobacteria reside intracellularly in a vacuole that allows it to circumvent the antimicrobial environment of the host macrophage. Although the mycobacterial phagosome exhibits selective fusion with vesicles of the endosomal system, identification of host and bacterial factors associated with phagosome bio-genesis is limited. To identify these potential factors, mAbs were generated to a membrane preparation of mycobacterial phagosomes isolated from M. tuberculosis -infected macrophages. A mAb recognizing a 32–35 kDa macrophage protein associated with the phagosomal membrane of Mycobacterium was identified. N-terminal sequence analysis identified this protein as Mac-2 or galectin-3, a galactoside-binding protein of macrophages. Galectin-3 (gal-3) was shown to accumulate in Mycobacterium -containing phagosomes during the course of infection. This accumu-lation was specific for phagosomes containing live mycobacteria and occurred primarily at the cytosolic face of the phagosome membrane. In addition, bind-ing of gal-3 to mycobacterial phosphatidylinositol mannosides (PIMs) demonstrated a novel interaction between host carbohydrate-binding proteins and released mycobacterial glycolipids. Infection of macrophages from gal-3-deficient mice indicated that the protein did not play a role in infection in vitro . In contrast, infection of gal-3-deficient mice revealed a reduced capacity to clear late but not early infection.     

The identification of Mycobacterium marinum genes differentially expressed in macrophage phagosomes using promoter fusions to green fluorescent protein

Mycobacterium marinum , like Mycobacterium tuberculosis , is a slow-growing pathogenic mycobacteria that is able to survive and replicate in macrophages. Using the promoter-capture vector pFPV27, we have constructed a library of 200–1000 bp fragments of M. marinum genomic DNA inserted upstream of a promoterless green fluorescent protein (GFP) gene. Only those plasmids that contain an active promoter will express GFP. Macrophages were infected with this fusion library, and phagosomes containing fluorescent bacteria were isolated. Promoter constructs that were more active intracellularly were isolated with a fluorescence-activated cell sorter, and inserts were partially sequenced. The promoter fusions expressed intracellularly exhibited homology to mycobacterial genes encoding, among others, membrane proteins and biosynthetic enzymes. Intracellular expression of GFP was 2–20 times that of the same clones grown in media. Several promoter constructs were transformed into Mycobacterium smegmatis , Mycobacterium bovis BCG and Mycobacterium tuberculosis . These constructs were positive for GFP expression in all mycobacterial strains tested. Sorting fluorescent bacteria in phagosomes circumvents the problem of isolating a single clone from macrophages, which may contain a mixed bacterial population. This method has enabled us to isolate 12 M. marinum clones that contain promoter constructs differentially expressed in the macrophage.     

A protein kinase inhibitor as an antimycobacterial agent

The protein kinase inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H7) was found to inhibit the growth of two different mycobacterial strains, the slow-growing Mycobacterium bovis Bacille Calmette Guerin (BCG) and the fast-growing saprophyte Mycobacterium smegmatis mc2 155, in a dose-dependent manner. While screening for the effect of kinase inhibitors on mycobacterial growth, millimolar concentrations of H7 induced a 40% decrease in the growth of M. bovis BCG when measured as a function of oxidative phosphorylation. This H7-induced decrease in growth was shown to involve a 2-log fold decrease in the viable counts of M. smegmatis within a 48-h period and a 50% reduction in the number of BCG viable counts within a 10-day period. Micromolar concentrations of H7 compound induced a significant decrease in the activity of the Mycobacterium tuberculosis protein serine/threonine kinase (PSTK) PknB. The inhibition of mycobacterial growth as well as the inhibition of a representative M. tuberculosis protein serine/threonine kinase PknB suggests that conventional PSTK inhibitors can be used to study the role that the mycobacterial PSTK family plays in controlling bacterial growth.     

Recombinant BCG expressing Mycobacterium tuberculosis major extracellular proteins

rBCG30, the first vaccine against tuberculosis demonstrated more potent than BCG in preclinical studies, is the prototype of a class of vaccines that utilize BCG as a host organism for expressing and secreting Mycobacterium tuberculosis major extracellular proteins. The vaccine is based on the concept that extracellular proteins of intracellular pathogens are key immunoprotective molecules. rBCG30, which expresses and secretes large amounts of the M. tuberculosis 30 kDa major secretory protein, is currently in human clinical trials.     

Comparative proteome analysis of Mycobacterium tuberculosis and Mycobacterium bovis BCG strains: towards functional genomics of microbial pathogens

In 1993, the WHO declared tuberculosis a global emergency on the basis that there are 8 million new cases per year. The complete genome of the strain H37Rv of the causative microorganism, Mycobacterium tuberculosis, comprising 3924 genes has been sequenced. We compared the proteomes of two non-virulent vaccine strains of M. bovis BCG (Chicago and Copenhagen) with two virulent strains of M. tuberculosis (H37Rv and Erdman) to identify protein candidates of value for the development of vaccines, diagnostics and therapeutics. The mycobacterial strains were analysed by two-dimensional electrophoresis (2-DE) combining non-equilibrium pH gradient electrophoresis (NEPHGE) with SDS-PAGE. Distinct and characteristic proteins were identified by mass spectrometry and introduced into a dynamic 2-DE database (http://www.mpiib-berlin.mpg.de/2D-PAGE). Silver-stained 2-DE patterns of mycobacterial cell proteins or culture supernatants contained 1800 or 800 spots, respectively, from which 263 were identified. Of these, 54 belong to the culture supernatant. Sixteen and 25 proteins differing in intensity or position between M. tuberculosis H37Rv and Erdman, and H37Rv and M. bovis BCG Chicago, respectively, were identified and categorized into protein classes. It is to be hoped that the availability of the mycobacterial proteome will facilitate the design of novel measures for prevention and therapy of one of the great health threats, tuberculosis.     

Mycobacterial infection induces the secretion of high-mobility group box 1 protein

High-mobility group box protein 1 (HMGB1) is a non-histone nuclear protein that acts as a pro-inflammatory cytokine and is released by monocytes and macrophages. Necrotic cells also release HMGB1 at the site of tissue damage which induces a variety of cellular responses, including the expression of pro-inflammatory mediators. This study investigated the secretion of HMGB1 in mycobacterial infection by macrophages in vitro and in the lungs of infected guinea pigs. We observed that infection by mycobacterium effectively induced HMGB1 release in both macrophage and monocytic cell cultures. Culture filtrate proteins from Mycobacterium tuberculosis induced maximum release of HMGB1 compared with different subcellular fractions of mycobacterium. We demonstrated that HMGB1 is released in lungs during infection of M. tuberculosis in guinea pigs and increased HMGB1 secretion in lungs of guinea pigs was delayed by prior vaccination with Mycobacterium bovis BCG. The secretion of cytokines like tumour necrosis factor alpha (TNF-alpha) and Interleukin-1beta was significantly increased when M. bovis BCG-infected cultures of J774A.1 cells were incubated with HMGB1. Among different mycobacterial toll-like receptor ligands, heat-shock protein 65 (HSP65) was found to be more potent in inducing HMGB1 secretion in RAW 264.7 cells. Pharmacological suppression of p38 or extracellular signal-regulated kinase 1/2 mitogen-activated protein kinases with specific inhibitors failed to inhibit HSP65-induced HMGB1 release, but inhibition of c-Jun NH(2)-terminal kinase activation attenuated HMGB1 release. Inhibition of the inducible NO synthase and neutralizing antibodies against TNF-alpha also reduced HMGB1 release stimulated by HSP65. We conclude that HMGB1 is secreted by macrophages during tuberculosis and it may act as a signal of tissue or cellular injury and enhances immune response.     

Antigens in culture supernatant of Mycobacterium tuberculosis: epitopes defined by monoclonal and human antibodies.

Antigens of Mycobacterium tuberculosis found in the supernatant of heat-treated cultures were characterized in order to explore whether antigens from this source could be used for the development of a serological test. Culture supernatants and sonicates of 12, 25 and 39 d cultures were analysed by SDS-PAGE. In culture supernatant, major protein bands of 65, 24, and 12 kDa were visible after Coomassie brilliant blue staining. Using murine monoclonal antibodies in Western blots, a pattern of protein bands distinct from that of the corresponding M. tuberculosis sonicates was found in all the culture supernatants. Gel permeation chromatography, in the presence of SDS, was used to separate the major protein bands in the culture supernatant. In ELISA, sera from 20 of 26 patients with tuberculosis reacted with fractions containing mainly 24 kDa or 12 kDa proteins, whereas none of the control sera reacted. In Western blots, each patient serum had its own characteristic banding pattern with culture supernatant, but all the sera from tuberculosis patients and control subjects reacted with protein bands of 65, 61, 58, 30 and 24 kDa. The 12 kDa protein was recognized only by sera from patients with tuberculosis in both Western blots and ELISA. This suggests that different kinds of epitopes on proteins of M. tuberculosis are detected by human antibodies in Western blots and ELISA. We assume that epitopes recognized in Western blots by patients with tuberculosis and control subjects are ubiquitous and are also present on normal commensal bacteria. Epitopes recognized by only some patients with tuberculosis in Western blots may be linear and M. tuberculosis specific. Epitopes recognized by tuberculosis patients but by none of the control subjects in ELISA may be conformation related and M. tuberculosis specific. The major protein bands found in supernatants of heat-treated cultures, 24 and 12 kDa, possess epitopes that may be M. tuberculosis specific and are potentially valuable for the development of a serological test.     

Recombinant mycobacterial proteins future directions to improve protective efficacy

A large number of subunit vaccine candidates have recently been developed as alternatives to Mycobacterium bovis Bacillus Calmette-Guerin (BCG), which gives unpredictable and highly variable protection against tuberculosis. Immunological potential of various recombinant proteins against mycobacterial infections has been discussed. Further, strategies have been suggested, which include development of constructs coexpressing cytokines or regimens utilizing recombinant proteins for further improving the protective efficacy.     

The antigen 85 complex: a major secretion product of Mycobacterium tuberculosis.

The large number of different proteins synthesized by the mycobacterial cell are currently classified and studied in terms of groups of proteins with certain common properties such as physical and chemical characteristics, function, and localization in the mycobacterial cell. Proteins that are actively secreted during culture on synthetic media represent a particular group of great current interest. At least eight proteins secreted by Mycobacterium tuberculosis have been isolated and characterized to various extents. The genes coding for five proteins secreted from M. tuberculosis and/or Mycobacterium bovis BCG have been cloned and sequenced. All of them contain typical signal sequences. The proteins of the antigen 85 complex, which form the main subject of this review, are often the most common proteins in M. tuberculosis culture fluid. The constituents denoted 85A, 85B, and 85C are encoded by three genes located at different sites in the mycobacterial genome and show extensive cross-reactivity as well as homology at amino acid and gene levels. The proteins differ slightly in molecular mass in the 30- to 31-kDa region, and all of them are fibronectin-binding proteins, but the significance of the latter observation and the role of these proteins in mycobacterial physiology and interaction with the infected host remain to be elucidated. The antigen 85 complex proteins are strongly immunogenic in natural and experimental mycobacterial infections in terms of both induction of antibody synthesis and T-cell-mediated reactions. The well-recognized difference in the efficacy of live and dead mycobacterial vaccines should be considered in relation to the group of secreted antigens. After inoculation, live bacteria in vaccines such as BCG multiply in the host, probably releasing several constituents belonging to the class of secreted proteins and hence resulting in more efficient stimulation of the immune system. Secreted mycobacterial antigens are expected to be of particular significance in induction of various immune responses that are responsible for development of protective immunity in some individuals and for clinical symptoms and complications of the ensuing disease in others.     

Detection of in vitro and in vivo released antigens of diagnostic interest in Mycobacterium tuberculosis by immunoblotting

Identification of in vitro and in vivo released mycobacterial antigens are of considerable interest in diagnosis of Mycobacterium tuberculosis. Isolation of in vitro released antigen from M. tb excretory-secretory culture filtrate protein and in vivo released circulating tuberculous antigen from smear positive pulmonary tuberculosis sera by ammonium sulphate precipitation is reported. The antigens were resolved by SDS-PAGE and immunoblotting was performed using pooled serum of smear positive, smear negative pulmonary tuberculosis sera and normal sera to identify reactive tuberculous antigens. In vitro and in vivo released mycobacterial antigens showed reactivity at 100, 31, 43 and 20 kDa with smear positive and smear negative pulmonary tuberculosis patients. Further, the in vitro released antigen showed strong reactivity exclusively at 55 kDa antigen with smear positive and 24 kDa antigen with smear negative pulmonary tuberculosis sera. In vivo released antigen reacted exclusively at 170 and 16 kDa with smear positive and 19 kDa antigen with smear negative pulmonary tuberculosis patients. Antigens of 24 and 19 kDa which are reactive with sputum negative sera will be of diagnostic interest and need further study in patients with low bacillary load. The in vitro and in vivo released mycobacterial 100, 31,43 and 20 kDa antigens, reactive with patients sera are of diagnostic interest in tuberculosis.