Abstract
Benzothiazinones (BTZs) are a new class of sulfur containing heterocyclic compounds that target DprE1, an oxidoreductase involved in the epimerization of decaprenyl-phosphoribose (DPR) to decaprenyl-phosphoarabinose (DPA) in the Corynebacterineae, such as Corynebacterium glutamicum and Mycobacterium tuberculosis. As a result, BTZ inhibition leads to inhibition of cell wall arabinan biosynthesis. Previous studies have demonstrated the essentiality of dprE1. In contrast, Cg-UbiA a ribosyltransferase, which catalyzes the first step of DPR biosynthesis prior to DprE1, when genetically disrupted, produced a viable mutant, suggesting that although BTZ biochemically targets DprE1, killing also occurs through chemical synthetic lethality, presumably through the lack of decaprenyl phosphate recycling. To test this hypothesis, a derivative of BTZ, BTZ043, was examined in detail against C. glutamicum and C. glutamicum::ubiA. The wild type strain was sensitive to BTZ043; however, C. glutamicum::ubiA was found to be resistant, despite possessing a functional DprE1. When the gene encoding C. glutamicum Z-decaprenyl-diphosphate synthase (NCgl2203) was overexpressed in wild type C. glutamicum, resistance to BTZ043 was further increased. This data demonstrates that in the presence of BTZ, the bacilli accumulate DPR and fail to recycle decaprenyl phosphate, which results in the depletion of decaprenyl phosphate and ultimately leads to cell death.
Highlights
Benzothiazinones inhibit cell wall arabinan biosynthesis, which is lethal for Corynebacterineae
C. glutamicum and M. tuberculosis share very similar cell wall architecture and due to its genetically tractable genome, we have used C. glutamicum extensively as an excellent model organism to study the molecular genetics of mycobacterial cell wall biosynthesis [8, 16, 17]
Because the primary action of BTZ043 is reportedly due to the blockage of cell wall arabinan biosynthesis, we cultured C. glutamicum and C. glutamicum::ubiA in liquid media over a 48-h period and examined their susceptibility to BTZ043 at a range of concentrations (Fig. 2, A and B)
Summary
Benzothiazinones inhibit cell wall arabinan biosynthesis, which is lethal for Corynebacterineae. Cg-UbiA a ribosyltransferase, which catalyzes the first step of DPR biosynthesis prior to DprE1, when genetically disrupted, produced a viable mutant, suggesting that BTZ biochemically targets DprE1, killing occurs through chemical synthetic lethality, presumably through the lack of decaprenyl phosphate recycling. To test this hypothesis, a derivative of BTZ, BTZ043, was examined in detail against C. glutamicum and C. glutamicum::ubiA. When the gene encoding C. glutamicum Z-decaprenyl-diphosphate synthase (NCgl2203) was overexpressed in wild type C. glutamicum, resistance to BTZ043 was further increased This data demonstrates that in the presence of BTZ, the bacilli accumulate DPR and fail to recycle decaprenyl phosphate, which results in the depletion of decaprenyl phosphate and leads to cell death. The overexpression of a prenyl synthase supplements enough decaprenyl phosphate to aid in cell wall biosynthesis
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