Deciphering the molecular mechanism and regulation of formaldehyde detoxification in Mycobacterium smegmatis

The build-up of formaldehyde, a highly reactive molecule is cytotoxic and must be eliminated for the organism's survival. Formaldehyde detoxification system is found in nearly all organisms including both pathogenic and non-pathogenic mycobacteria. MscR, a formaldehyde dehydrogenase from (Msm), is an indispensable part of this system and forms a bicistronic operon with its downstream uncharacterized gene, . We here show that Fmh, a putative metallo-beta-lactamase, is essential in tolerating higher amounts of formaldehyde when co-overexpressed with . Our NMR studies indicate that MscR, along with Fmh, enhances formate production through a mycothiol (MSH)-dependent pathway, emphasizing the importance of Fmh in detoxifying formaldehyde. Although another aldehyde dehydrogenase, induces upon formaldehyde addition, it is not involved in its detoxification. We also show that the expression of the operon is constitutive and remains unchanged upon formaldehyde addition, as displayed by the promoter activity of and by the transcript and protein levels of MscR. Furthermore, we establish the role of a thiol-responsive sigma factor SigH in formaldehyde detoxification. We show that SigH, and not SigE, is crucial for formaldehyde detoxification, even though it does not directly regulate operon expression. In addition, sensitivity to formaldehyde in -knockout could be alleviated by overexpression of . Taken together, our data demonstrate the importance of MSH-dependent pathways in detoxifying formaldehyde in a mycobacterial system. An absence of such MSH-dependent proteins in eukaryotes and its complete conservation in , the causative agent of tuberculosis, further unravel new drug targets for this pathogen.IMPORTANCEExtensive research has been done on formaldehyde detoxification in different bacteria. However, our current understanding of the mechanisms underlying this process in mycobacteria remains exceedingly little. We previously showed that MscR, a formaldehyde dehydrogenase from , plays a pivotal role in this detoxification pathway. Here, we present a potential S-formyl-mycothiol hydrolase named Fmh, thought to be a metallo-beta-lactamase, which functions along with mycothiol (MSH) and MscR to enhance formate production within this detoxification pathway. Co-expression of Fmh with MscR significantly enhances the efficiency of formaldehyde detoxification in . Our experiments establish that Fmh catalyzes the final step of this detoxification pathway. Although an alte