Superoxide dismutase (SOD) is a ubiquitous metalloenzyme in aerobic organisms that catalyzes the conversion of superoxide anion to hydrogen peroxide. Mycobacterium tuberculosis is unusual in that it secretes large quantities of iron-cofactored SOD. To determine the role of SOD in pathogenesis, we constructed mutants of M. tuberculosis H37Rv with reduced SOD production. Compared with controls, SOD-diminished isolates were more susceptible to killing by hydrogen peroxide. The isolates were markedly attenuated, exhibiting nearly 100,000-fold fewer bacilli than virulent control strains in the lungs and spleens of C57BL/6 mice 4 wk after intravenous inoculation. In the lung, SOD-attenuated M. tuberculosis induced robust interstitial mononuclear cell infiltration within 24 h and many cells were apoptotic by TUNEL staining, whereas virulent H37Rv exhibited minimal early inflammatory response and only rare interstitial mononuclear cell apoptosis. During prolonged infections, C57BL/6 mice tolerated SOD-attenuated M. tuberculosis better than BCG, exhibiting 68% greater weight gain, quicker eradication of bacilli from the spleen, and less alveolar lung infiltration. These results establish the importance of SOD in the pathogenesis of tuberculosis. Its effect appears to be mediated in part by inhibiting innate host immune responses, including early mononuclear cell infiltration of infected tissues and apoptosis.
The morbidity and mortality of Staphylococcus aureus infections remain high despite antibiotic therapy. To investigate further the observation that penicillins increase the hemolytic activity of staphylococcal cultures, 37 strains were grown in broth with and without subinhibitory nafcillin. Nafcillin stimulated hemolytic activity in nafcillin-susceptible and -resistant isolates. Sterile broth filtrates of nafcillin-associated cultures injected intraperitoneally in mice were more rapidly lethal than filtrates of the same strain grown without nafcillin. Lethality was neutralized by anti-alpha-toxin antisera. DNA-RNA hybridization revealed a nafcillin-associated increase in alpha-toxin mRNA during the postexponential growth phase after the activation of agr. Isolates grown in slightly inhibitory nafcillin concentrations had more alpha-toxin mRNA than did nafcillin-free cultures, whereas agr RNAIII levels were comparable. This suggests that nafcillin-induced alpha-toxin production is not entirely attributable to agr. A supplemental regulatory mechanism may be involved.
New antibiotic regimens are needed for the treatment of multidrug-resistant tuberculosis. Mycobacterium tuberculosis has a thick peptidoglycan layer, and the penicillin-binding proteins involved in its biosynthesis are inhibited by clinically relevant concentrations of β-lactam antibiotics. β-Lactamase production appears to be the major mechanism by whichM. tuberculosis expresses β-lactam resistance. β-Lactamases from the broth supernatant of 3- to 4-week-old cultures of M. tuberculosis H37Ra were partially purified by sequential gel filtration chromatography and chromatofocusing. Three peaks of β-lactamase activity with pI values of 5.1, 4.9, and 4.5, respectively, and which accounted for 10, 78, and 12% of the total postchromatofocusing β-lactamase activity, respectively, were identified. The β-lactamases with pI values of 5.1 and 4.9 were kinetically indistinguishable and exhibited predominant penicillinase activity. In contrast, the β-lactamase with a pI value of 4.5 showed relatively greater cephalosporinase activity. An open reading frame in cosmid Y49 of the DNA library of M. tuberculosis H37Rv with homology to known class A β-lactamases was amplified from chromosomal DNA of M. tuberculosis H37Ra by PCR and was overexpressed in Escherichia coli. The recombinant enzyme was kinetically similar to the pI 5.1 and 4.9 enzymes purified directly from M. tuberculosis. It exhibited predominant penicillinase activity and was especially active against azlocillin. It was inhibited by clavulanic acid andm-aminophenylboronic acid but not by EDTA. We conclude that the major β-lactamase of M. tuberculosis is a class A β-lactamase with predominant penicillinase activity. A second, minor β-lactamase with relatively greater cephalosporinase activity is also present.
Isogeneic bacterial strains that differ only in the production of a single microbial factor have been invaluable in studying the pathogenesis of bacterial infections. The targeted, intentional inactivation of a gene encoding a potential virulence determinant generally requires homologous recombination to replace the gene with an inactivated allele. To determine whether the insertion and expression of a fragment of a bacterial gene in an antisense orientation could be used as a rapid alternative to allelic inactivation for producing paired isogeneic isolates, we inverted a 600-bp fragment of the Staphylococcus aureus gene encoding alpha-toxin, hla, behind its native promoter on an Escherichia coli-S. aureus shuttle vector. A transformant of an S. aureus strain carrying the antisense hla fragment produced antisense hla RNA and made 16-fold less alpha-toxin than either its parent or an isogeneic transformant containing vector DNA without hla. Also, intraperitoneal injection of 1.5 ؋ 10 9 CFU of the antisense hla-containing transformant was significantly less lethal in a murine model than that of the parent (1 of 10 versus 7 of 10 mice expired [P < 0.02]) or the transformant without hla (1 of 10 versus 7 of 7 mice expired [P < 0.001]). We conclude that the expression of a fragment of hla in an antisense orientation in S. aureus on a plasmid vector reduces alpha-toxin production and the lethal activity of the strain in a murine model. The antisense strategy for creating isogeneic strains of bacteria may facilitate molecular investigations into the pathogenesis of infection. It also may be useful in creating novel live-attenuated strains of bacteria for use as vaccine candidates.
A major obstacle to development of subunit vaccines and diagnostic reagents for tuberculosis is the inability to produce large quantities of these proteins. To test the hypothesis that poor expression of some mycobacterial genes in Escherichia coli is due, in part, to the presence of low-usage E. coli codons, we used site-directed mutagenesis to convert low-usage codons to high-usage codons for the same amino acid in the Mycobacterium tuberculosis genes for antigens 85A and 85B and superoxide dismutase. Replacement of five codons in the wild-type gene for antigen 85B increased recombinant protein production in E. coli 54-fold. The recombinant antigen elicited proliferation and gamma interferon production by lymphocytes from healthy tuberculin reactors and was recognized by monoclonal antibodies to native antigen 85, indicating that the recombinant antigen contained T-cell and B-cell epitopes. Northern blotting demonstrated only a 1.7-to 2.5-fold increase in antigen 85B mRNA, suggesting that the enhanced protein production was due primarily to enhanced efficiency of translation. Codon replacement in the genes encoding antigen 85A and superoxide dismutase yielded fourto sixfold increases in recombinant protein production, suggesting that this strategy may be generally applicable to overexpression of mycobacterial genes in E. coli.Despite widespread administration of bacillus CalmetteGuérin vaccine throughout the world, tuberculosis remains the leading cause of death from a single pathogen (3). Development of subunit tuberculosis vaccines has been spurred by findings that partial immunity is conferred by vaccination of animals with culture filtrate proteins (1, 18), purified antigen 85B (12), and naked DNA encoding mycobacterial antigens (13, 23). A major problem with developing a subunit vaccine is that Escherichia coli overexpression systems do not provide good yields of some Mycobacterium tuberculosis proteins, even when mycobacterial genes are placed behind strong E. coli promoters (15). Because the GC content of E. coli genes is only 50%, E. coli may lack the transcriptional and translational machinery needed to efficiently produce proteins from mycobacterial genes, which have a GC content of 65 to 70% (7). Difficulties in overexpressing mycobacterial genes in E. coli have led investigators to produce mycobacterial proteins in baculovirus expression systems (2) or to use bacteria that are phylogenetically closer to mycobacteria, such as Streptomyces lividans, Corynebacterium spp., and Mycobacterium smegmatis (7,10,16,26).When the gene encoding antigen 85B was first sequenced and cloned behind a trc promoter in E. coli, less than 0.5 mg of recombinant antigen 85B per liter was produced (15). Whereas this yield can be improved to 10 mg/liter by using a stronger promoter such as T7 (9), problems with achieving higher-level expression and solubility of antigen 85B have remained. Therefore, investigators studying antigen 85B and many other secreted M. tuberculosis antigens have generally purified them from M. tuber...
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