Rv1258c acts as a drug efflux pump and growth controlling factor in Mycobacterium tuberculosis

The possible role of efflux pump as a survival mechanism in Mycobacterium tuberculosis (M. tb) is gaining an increasing attention. Previously, Rv1258c (Tap) and its certain mutations confer the clinically relevant drug resistance. In this study, we found new mutations of Rv1258c in G195C, T297P and I328T. Effect of modulating T297P and I328T on the drug resistance by knockout and complement in M. tb H37Rv showed that M. tb Delta Rv1258c showed a slightly lower MIC for rifampin, ethambutol, ofloxacin, amikacin, capreomycin and streptomycin than M. tb H37Rv WT and the complement. Rv1258c T297P and Rv1258c I328T showed an increased drug resistance to ethambutol and capreomycin than the complement of Rv1258c WT. Most importantly, M. tb Delta Rv1258c exhibited a slow growth in the normal culture medium. TMT-based quantitative proteomics analysis of M. tb Delta Rv1258c and WT showed that the knockout of Rv1258c greatly down-regulated the expression of the ribosome system and one of the special five type VII secretion systems, ESX-3, which impaired the bacterial growth. These results indicate that the newly found T297P and I328T mutations of Rv1258c contributed to an increased resistance to ethambutol and capreomycin, and Rv1258c as growth controlling factor influencing the growth of M. tb.

Automated summary

The newly found mutations T297P and I328T of Rv1258c contribute to increased resistance to ethambutol and capreomycin in Mycobacterium tuberculosis, and Rv1258c acts as a growth controlling factor affecting the bacterial growth.