The K super(+) uptake regulator TrkA controls membrane potential, pH homeostasis and multidrug susceptibility in Mycobacterium smegmatis

The K super(+) uptake regulator TrkA controls membrane potential, pH homeostasis and multidrug susceptibility in Mycobacterium smegmatis

Background Rifampicin is an important first-line antibiotic for the treatment of mycobacterial infections. Although most rifampicin-resistant strains arise through mutations in the rpoB gene in bacteria, a proportion of such strains show no rpoB mutations. This suggests that alternative mechanisms a...

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Veröffentlicht in:Journal of antimicrobial chemotherapy 2011-07, Vol.66 (7), p.1489-1498
Hauptverfasser: Castaneda-Garcia, Alfredo, Do, Thi Thuy, Blazquez, Jesus
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Mycobacterium smegmatis
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container_title Journal of antimicrobial chemotherapy
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creator Castaneda-Garcia, Alfredo
Do, Thi Thuy
Blazquez, Jesus
description Background Rifampicin is an important first-line antibiotic for the treatment of mycobacterial infections. Although most rifampicin-resistant strains arise through mutations in the rpoB gene in bacteria, a proportion of such strains show no rpoB mutations. This suggests that alternative mechanisms are responsible for rifampicin resistance. Methods We have constructed and analysed a library of 11000 Mycobacterium smegmatis insertion mutants to find other possible rifampicin-resistance determinants. Results We found that disruption of trkA, a putative regulator of K super(+) uptake, leads to increased rifampicin resistance. Our data indicate that TrkA-mediated K super(+) uptake is essential for maintenance of the M. smegmatis growth rate, its pH homeostasis and membrane potential. In addition to increased rifampicin resistance, inactivation of trkA confers resistance to other hydrophobic agents, such as novobiocin, as well as increased susceptibility to isoniazid and positively charged aminoglycosides. Conclusions Our results suggest that trkA is a general regulator of antibiotic susceptibility, and the changes in the multidrug susceptibility/resistance pattern detected in the trkA mutant are associated with membrane hyperpolarization. This study sheds light on the role of ion transport activity in intrinsic and acquired antibiotic resistance in mycobacteria.
doi_str_mv 10.1093/jac/dkr165
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Although most rifampicin-resistant strains arise through mutations in the rpoB gene in bacteria, a proportion of such strains show no rpoB mutations. This suggests that alternative mechanisms are responsible for rifampicin resistance. Methods We have constructed and analysed a library of 11000 Mycobacterium smegmatis insertion mutants to find other possible rifampicin-resistance determinants. Results We found that disruption of trkA, a putative regulator of K super(+) uptake, leads to increased rifampicin resistance. Our data indicate that TrkA-mediated K super(+) uptake is essential for maintenance of the M. smegmatis growth rate, its pH homeostasis and membrane potential. In addition to increased rifampicin resistance, inactivation of trkA confers resistance to other hydrophobic agents, such as novobiocin, as well as increased susceptibility to isoniazid and positively charged aminoglycosides. Conclusions Our results suggest that trkA is a general regulator of antibiotic susceptibility, and the changes in the multidrug susceptibility/resistance pattern detected in the trkA mutant are associated with membrane hyperpolarization. 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Although most rifampicin-resistant strains arise through mutations in the rpoB gene in bacteria, a proportion of such strains show no rpoB mutations. This suggests that alternative mechanisms are responsible for rifampicin resistance. Methods We have constructed and analysed a library of 11000 Mycobacterium smegmatis insertion mutants to find other possible rifampicin-resistance determinants. Results We found that disruption of trkA, a putative regulator of K super(+) uptake, leads to increased rifampicin resistance. Our data indicate that TrkA-mediated K super(+) uptake is essential for maintenance of the M. smegmatis growth rate, its pH homeostasis and membrane potential. In addition to increased rifampicin resistance, inactivation of trkA confers resistance to other hydrophobic agents, such as novobiocin, as well as increased susceptibility to isoniazid and positively charged aminoglycosides. Conclusions Our results suggest that trkA is a general regulator of antibiotic susceptibility, and the changes in the multidrug susceptibility/resistance pattern detected in the trkA mutant are associated with membrane hyperpolarization. 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source Oxford University Press Journals All Titles (1996-Current); EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection; Free Full-Text Journals in Chemistry
subjects Mycobacterium smegmatis
title The K super(+) uptake regulator TrkA controls membrane potential, pH homeostasis and multidrug susceptibility in Mycobacterium smegmatis
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