Abstract
With the growing body of knowledge on the contribution of efflux activity to Mycobacterium tuberculosis drug resistance, increased attention has been given to the use of efflux inhibitors as adjuvants of tuberculosis therapy. Here, we investigated how efflux activity modulates the levels of efflux between monoresistant and multi- and extensively drug resistant (M/XDR) M. tuberculosis clinical isolates. The strains were characterized by antibiotic susceptibility testing in the presence/absence of efflux inhibitors, molecular typing, and genetic analysis of drug-resistance-associated genes. Efflux activity was quantified by real-time fluorometry. The results demonstrated that all the M. tuberculosis clinical strains, susceptible or resistant, presented a faster, rapid, and non-specific efflux-mediated short-term response to drugs. The synergism assays demonstrated that the efflux inhibitors were more effective in reducing the resistance levels in the M/XDR strains than in the monoresistant strains. This indicated that M/XDR strains presented a more prolonged response to drugs mediated by efflux compared to the monoresistant strains, but both maintain it as a long-term stress response. This work shows that efflux activity modulates the levels of drug resistance between monoresistant and M/XDR M. tuberculosis clinical strains, allowing the bacteria to survive in the presence of noxious compounds.
Highlights
Tuberculosis (TB) is a major public health problem worldwide, accounting for an estimated10.4 million new cases and 1.3 million deaths in 2016 [1]
The 18 M. tuberculosis strains were firstly characterized according to their efflux capacity using a fluorometric method that detects in real-time the accumulation and efflux of ethidium bromide in bacterial cells loaded with this fluorophore [19,31,32]
We selected a panel of susceptible, monoresistant, and multi- and extensively drug resistant (M/XDR) M. tuberculosis clinical isolates. These strains were chosen in order to include the most prevalent mutations associated with resistance to isoniazid and rifampicin
Summary
Tuberculosis (TB) is a major public health problem worldwide, accounting for an estimated. 10.4 million new cases and 1.3 million deaths in 2016 [1]. Despite worldwide efforts to reduce the global burden of tuberculosis, multidrug resistant (MDR) and extensively drug resistant (XDR) tuberculosis The emergence of MDR (simultaneous resistance to isoniazid and rifampicin) and XDR (MDR with additional resistance to second-line injectables and fluoroquinolones) Mycobacterium tuberculosis has become a major public health concern worldwide. There was an estimate of 490,000 new MDRTB cases with approximately. DST, drug susceptibility testing; MIC, minimum inhibitory concentration; INH, isoniazid; LAM, Latin American–Mediterranean; MDR, multidrug resistant; RIF, rifampicin; SIT, spoligotype international type; XDR, extensively drug resistant; VP, verapamil; TZ, thioridazine; Suscep., susceptible; R, resistant; wt, wild-type sequence; STD, antibiotic susceptibility testing.
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