Abstract
The "cell wall core" consisting of a mycolyl-arabinogalactan-peptidoglycan (mAGP) complex represents the hallmark of the mycobacterial cell envelope. It has been the focus of intense research at both structural and biosynthetic levels during the past few decades. Because it is essential, mAGP is also regarded as a target for several antitubercular drugs. Herein, we demonstrate that exposure of Mycobacterium bovis Bacille Calmette-Guérin or Mycobacterium marinum to thiacetazone, a second line antitubercular drug, is associated with a severe decrease in the level of a major apolar glycolipid. This inhibition requires MmaA4, a methyltransferase reported to participate in the activation process of thiacetazone. Following purification, this glycolipid was subjected to detailed structural analyses, combining gas-liquid chromatography, mass spectrometry, and nuclear magnetic resonance. This allowed to identify it as a 5-O-mycolyl-β-Araf-(1→2)-5-O-mycolyl-α-Araf-(1→1)-Gro, designated dimycolyl diarabinoglycerol (DMAG). The presence of DMAG was subsequently confirmed in other slow growing pathogenic species, including Mycobacterium tuberculosis. DMAG production was stimulated in the presence of exogenous glycerol. Interestingly, DMAG appears structurally identical to the terminal portion of the mycolylated arabinosyl motif of mAGP, and the metabolic relationship between these two components was provided using antitubercular drugs such as ethambutol or isoniazid known to inhibit the biosynthesis of arabinogalactan or mycolic acid, respectively. Finally, DMAG was identified in the cell wall of M. tuberculosis. This opens the possibility of a potent biological function for DMAG that may be important to mycobacterial pathogenesis.
Highlights
Mycolyl-arabinogalactan-peptidoglycan represents the hallmark of the mycobacterial cell envelope and the target of several antitubercular drugs
The unique chromatographic properties of this compound, including (i) a TLC mobility that is intermediate between PGL and TDM and (ii) a blue color induced by sulfuric acid/orcinol staining, did not fit with those of glycolipids usually identified in these species. Starting from this observation, the present study demonstrated the following. (i) This compound, 5-O-mycolyl-Araf-(132)-5-O-mycolyl-␣-Araf-(131)-Gro (DMAG) (Fig. 5), is a glycolipid very poorly described in mycobacteria. (ii) DMAG was produced in various mycobacterial species, including M. tuberculosis. (iii) Exposure to TAC correlated with decreased DMAG production in mycobacteria, and this effect was dependent on a functional MmaA4. (iv) DMAG production requires the presence of glycerol in the culture medium
Inhibition of DMAG by drugs inhibiting mAGP is consistent with the strong structural analogy between the two components, thereby raising a possible metabolic interconnectivity between DMAG and mAGP
Summary
Mycolyl-arabinogalactan-peptidoglycan (mAGP) represents the hallmark of the mycobacterial cell envelope and the target of several antitubercular drugs. We demonstrate that exposure of Mycobacterium bovis Bacille CalmetteGuerin or Mycobacterium marinum to thiacetazone, a second line antitubercular drug, is associated with a severe decrease in the level of a major apolar glycolipid This inhibition requires MmaA4, a methyltransferase reported to participate in the activation process of thiacetazone. From a more fundamental perspective, mechanistic study of cell wall-inhibitory agents can lead to important insights into the essentiality of cell wall-associated components as well as into their biological functions In this context, we have recently started to explore the mechanism(s) of activation and action of thiacetazone (TAC), a thiosemicarbazone antimicrobial that has been widely used for TB treatment in Africa and South America as a cheap and effective substitute for p-aminosalicylic acid (12). This study was undertaken to investigate whether this drug affects other molecules that may be related to mycolic acids with the hope that it may uncover novel cell wall-associated components that have been overlooked in previous studies
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