F420H2 Is Required for Phthiocerol Dimycocerosate Synthesis in Mycobacteria.

UNLABELLED: Phthiocerol dimycocerosates (PDIM) are a group of cell surface-associated apolar lipids of Mycobacterium tuberculosis and closely related mycobacteria, such as Mycobacterium bovis and Mycobacterium leprae A characteristic methoxy group of these lipids is generated from the methylation of a hydroxyl group of the direct precursors, the phthiotriols. The precursors arise from the reduction of phthiodiolones, the keto intermediates, by a ketoreductase. The putative phthiodiolone ketoreductase (PKR) is encoded by Rv2951c in M. tuberculosis and BCG_2972c in M. bovis BCG, and these open reading frames (ORFs) encode identical amino acid sequences. We investigated the cofactor requirement of the BCG_2972c protein. A comparative analysis based on the crystallographic structures of similar enzymes identified structural elements for binding of coenzyme F420 and hydrophobic phthiodiolones in PKR. Coenzyme F420 is a deazaflavin coenzyme that serves several key functions in pathogenic and nonpathogenic mycobacteria. We found that an M. bovis BCG mutant lacking F420-dependent glucose-6-phosphate dehydrogenase (Fgd), which generates F420H2 (glucose-6-phosphate + F420 → 6-phosphogluconate + F420H2), was devoid of phthiocerols and accumulated phthiodiolones. When the mutant was provided with F420H2, a broken-cell slurry of the mutant converted accumulated phthiodiolones to phthiocerols; F420H2 was generated in situ from F420 and glucose-6-phosphate by the action of Fgd. Thus, the reaction mixture was competent in reducing phthiodiolones to phthiotriols (phthiodiolones + F420H2 → phthiotriols + F420), which were then methylated to phthiocerols. These results established the mycobacterial phthiodiolone ketoreductase as an F420H2-dependent enzyme (fPKR). A phylogenetic analysis of close homologs of fPKR revealed potential F420-dependent lipid-modifying enzymes in a broad range of mycobacteria. IMPORTANCE: Mycobacterium tuberculosis is the causative agent of tuberculosis, and phthiocerol dimycocerosates (PDIM) protect this pathogen from the early innate immune response of an infected host. Thus, the PDIM synthesis system is a potential target for the development of effective treatments for tuberculosis. The current study shows that a PDIM synthesis enzyme is dependent on the coenzyme F420 F420 is universally present in mycobacteria and absent in humans. This finding expands the number of experimentally validated F420-dependent enzymes in M. tuberculosis to six, each of which helps the pathogen to evade killing by the host immune system, and one of which activates an antituberculosis drug, PA-824. This work also has relevance to leprosy, since similar waxy lipids are found in Mycobacterium leprae.

ProTides of N-(3-(5-(2'-deoxyuridine))prop-2-ynyl)octanamide as potential anti-tubercular and anti-viral agents.

The flavin-dependent thymidylate synthase X (ThyX), rare in eukaryotes and completely absent in humans, is crucial in the metabolism of thymidine (a DNA precursor) in many microorganisms including several human pathogens. Conserved in mycobacteria, including Mycobacterium leprae, and Mycobacterium tuberculosis, it represents a prospective anti-mycobacterial therapeutic target. In a M. tuberculosis ThyX-enzyme inhibition assay, N-(3-(5-(2'-deoxyuridine-5'-phosphate))prop-2-ynyl)octanamide was reported to be the most potent and selective 5-substituted 2'-deoxyuridine monophosphate analogue. In this study, we masked the two charges at the phosphate moiety of this compound using our ProTide technology in order to increase its lipophilicity and then allow permeation through the complex mycobacterial cell wall. A series of N-(3-(5-(2'-deoxyuridine))prop-2-ynyl)octanamide phosphoroamidates were chemically synthesized and their biological activity as potential anti-tuberculars was evaluated. In addition to mycobacteria, several DNA viruses depend on ThyX for their DNA biosynthesis, thus these prodrugs were also screened for their antiviral properties.

Gelatinase activity in Mycobacterium bovis protein extract.

Proteases are well-recognized as virulence factors in different pathologies, resulting in tissue damage potential. Despite efforts over the past few years to identify mycobacterial protein antigens, there is little information regarding the role of mycobacterial proteinase activities. In this study, by zymography techniques, we have detected and partially studied some biochemical properties of Mycobacterium bovis proteases, such as pH dependency of activity and susceptibility to classical proteinase inhibitors. We observed optimal proteolytic activity at pH 8. Some proteinases were inhibited by classic inhibitors of serine proteases, such as PMSF, AEBSF, and 3-4 DCI. In some AEBSF pre-treated preparations we observed residual gelatinase activity in Rf 0.32. This gelatinase was stimulated by Zn2+ and inhibited by OPA (1 mM). This last effect was reversed by exposure to equimolar quantitative OPA/Zn+2 (1 mM/1 mM). These results suggest the existence of serine proteinase and metalloproteinase types in protein extracts of Mycobacterium bovis.

Expression of foreign genes in Mycobacterium bovis BCG strains using different promoters reveals instability of the hsp60 promoter for expression of foreign genes in Mycobacterium bovis BCG strains.

SETTING: Optimization of BCG as a vehicle for live recombinant vaccines requires improved strategies for stable antigen expression. OBJECTIVES: To investigate the effects of various combinations of post-translational signals and promoters on expression and stability in different BCG strains. DESIGN: Plasmids were constructed using mycobacterial promoters (hsp60, 19-kDa antigen, 85A antigen--from the Mycobacterium tuberculosis complex--and the 18-kDa antigen from Mycobacterium leprae) and post-translation signals (85A antigen secretion and 19-kDa antigen acylation signals), coupled with reporter genes. RESULTS: The 19-kDa acylation signal had little effect on expression, while the 85A secretion signal enhanced markedly the levels of cell-associated product. Inclusion of the hsp60 promoter caused plasmid instability; various deletions affecting the promoter region occurred during or soon after transformation, but not during subsequent growth of the transformants, nor with other promoters. BCG Moreau appeared to be more susceptible to deletions than other BCG strains. CONCLUSIONS: The 85A signal may prove useful in optimizing gene expression in BCG, irrespective of secretion of the product. Deletions associated with the hsp60 promoter may be due to a transient lethal induction of the hsp60 promoter associated with electroporation. With intact plasmid there was no marked difference in expression between BCG strains.

Secretion of ATP-utilizing enzymes, nucleoside diphosphate kinase and ATPase, by Mycobacterium bovis BCG: sequestration of ATP from macrophage P2Z receptors?

Mycobacterium bovis BCG secretes two ATP-scavenging enzymes, nucleoside diphosphate kinase (Ndk) and ATPase, during growth in Middlebrook 7H9 medium. In synthetic Sauton medium without any protein supplements, there is less secretion of these two enzymes unless proteins such as bovine serum albumin (BSA), ovalbumin or extracts of macrophages are added to the medium. There is a gradient of activity among various proteins in triggering the induction of secretion of these two enzymes. Other mycobacteria, such as M. smegmatis, primarily secrete Ndk, while M. chelonae does not appear to secrete either of these two enzymes. Purification of the enzymes from the culture filtrate of 7H9-grown M. bovis BCG cells and determination of the N-terminal amino-acid sequence have demonstrated a high level of sequence identity of one of the ATPases with DnaK, a heat shock chaperone, of M. tuberculosis and M. leprae, while that of Ndk shows significant identity with the Ndk of Myxococcus xanthus. As both Ndk and ATPase use ATP as a substrate, the physiological significance of the secretion of these two ATP-utilizing enzymes was explored. External ATP is important in the activation of macrophage surface-associated P2Z receptors, whose activation has been postulated to allow phagosome-lysosome fusion and macrophage cell death. We demonstrate that the presence of the filtrate containing these enzymes prevents ATP-induced macrophage cell death, as measured by the release of an intracellular enzyme, lactate dehydrogenase. In vitro complexation studies with purified Ndk/ATPase and hyperproduced P2Z receptor protein will demonstrate whether these enzymes may be used by mycobacteria to sequester ATP from the macrophage P2Z receptors, thereby preventing phagosome-lysosome fusion or macrophage apoptotic death.

Gene knockout reveals a novel gene cluster for the synthesis of a class of cell wall lipids unique to pathogenic mycobacteria.

Surface-exposed unusual lipids containing phthiocerol and phenolphthiocerol are found only in the cell wall of slow-growing pathogenic mycobacteria and are thought to play important roles in host-pathogen interaction. The enzymology and molecular genetics of biosynthesis of phthiocerol and phenolphthiocerol are unknown. We postulate the domain organization of a set of multifunctional enzymes and a cluster of genes (pps) that would encode these enzymes for the biosynthesis of phthiocerol and phenolphthiocerol. A cosmid containing the postulated pps gene cluster was identified by screening a genomic library of Mycobacterium bovis BCG with the postulated homologous domains from mycocerosic acid synthase and fatty acid synthase genes as probes. Homologous cosmids were also identified in the genomic libraries of Mycobacterium tuberculosis and Mycobacterium leprae. M. bovis BCG was transformed with a pps disruption construct, made from the BCG cosmid by introducing the hygromycin resistance gene as the positive-selectable marker and the sacB gene as the counter-selectable marker. Gene disruption by homologous recombination with double crossover was confirmed by polymerase chain reaction and Southern hybridization. Chromatographic analysis showed that the phenolphthiocerol derivative, mycoside B, and phthiocerol dimycocerosates were not produced by the gene knockout mutants. This result confirms the identity of the pps genes. With the identification of the pps gene clusters in both M. tuberculosis and M. leprae, it should be possible to test the postulated roles of these unique lipids in tuberculosis and leprosy.

Characterization of the functional properties of the 70-kDa protein of Mycobacterium bovis.

A number of mycobacterial proteins have been shown to induce strong humoral and cellular immune responses, including the 70-kDa antigen (p70) of Mycobacterium leprae and Mycobacterium bovis. On the basis of sequence homology and an ATP binding ability, p70 has previously been tentatively allocated to the 70-kDa family of heat shock proteins (hsp70). We have purified the M. bovis p70 antigen and described ATPase and Ca(2+)-dependent autophosphorylating activities. These co-purified with p70 on gel chromatography and were up-regulated by native proteins and down-regulated by peptides. Inhibitory peptides were shown to bind p70. These data imply close functional similarities of mycobacterial p70 to other members of the hsp70 family, the Escherichia coli homologue dnaK in particular.

LDH isoenzyme as a tool for the identification of mycobacteria.

Using Polyacrylamide gel electrophoretic technique, the lactate dehydrogenase (LDH) isoenzyme patterns have been studied in four slow growing mycobacteria viz. Mycobacterium tuberculosis, M. avium, M. microti, and M. bovis and four rapid growing mycobacteria viz. M. Fortuitum, M. parafortuitum, M. thermoresistible and M. diernhoferi. Each mycobacterial species exhibited distinct isoenzyme pattern for LDH.

[Functional characteristics of the antioxidative system in mycobacteria grown on perfluorodecalin-modified media]. / Osobennosti funktsionirovaniia antiokislitel'noi sistemy mikobakterii, vyrashchennykh na sredakh, modifitsirovannykh perftordekalinom.

The growth of mycobacteria on perfluorodecalin-modified media was shown to be accompanied by distinct alterations in the activity of the antioxidant enzyme system in M. bovis BCG and M. lufu. In M. bovis BCG the levels of glutathione transferase and glutathione peroxidase-hydrogen peroxidase activity are decreased by 45.47% and 100.88%, respectively. In M. lufu, on the contrary, the level of superoxide dismutase is increased by 42.23%, with no changes observed in the levels of glutathione transferase and glutathione peroxidases. The data obtained suggest physiological heterogeneity of mycobacteria and, thus, open prospects for the differential approaches to the problem of increasing the efficacy of in vitro cultivation of various mycobacterial species, including M. leprae.