Dual Mutations in MSMEG_0965 and MSMEG_1380 Confer High-Level Resistance to Bortezomib and Linezolid by Both Reducing Drug Intake and Increasing Efflux in Mycobacterium smegmatis
Han Zhang, Cuiting Fang, Buhari Yusuf, Xiaoqing Zhu, Shuai Wang, H. M. Adnan Hameed, Yamin Gao, Tianyu Zhang

TL;DR
This study identifies two gene mutations in Mycobacterium smegmatis that cause high resistance to two antibiotics by reducing drug intake and increasing drug removal.
Contribution
The study reveals a dual mechanism of multidrug resistance involving MSMEG_0965 and MSMEG_1380 in mycobacteria.
Findings
Mutations in MSMEG_0965 reduce cell wall permeability, limiting drug entry.
Mutations in MSMEG_1380 upregulate the mmpS5-mmpL5 efflux system, increasing drug removal.
Dual mutations in both genes confer high-level resistance to bortezomib and linezolid.
Abstract
The emergence of multidrug-resistant and extensively drug-resistant Mycobacterium tuberculosis strains poses serious challenges to global tuberculosis control, highlighting the urgent need to elucidate the mechanisms underlying multidrug resistance. In this study, we screened for spontaneous bortezomib (BTZ)-resistant Mycobacterium smegmatis (Msm) mutants and identified a strain, Msm-R1-2, exhibiting 16- and 64-fold increases in minimum inhibitory concentrations (MICs) to BTZ and linezolid (LZD), respectively, compared to the parental strain. Whole-genome sequencing revealed resistance-associated mutations in two functionally distinct genes: MSMEG_1380, encoding a transcriptional regulator involved in efflux pump expression, and MSMEG_0965, encoding a porin protein. CRISPR-Cpf1-assisted gene knockout and editing experiments confirmed that single mutations in either MSMEG_1380 or…
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Taxonomy
TopicsMycobacterium research and diagnosis · Tuberculosis Research and Epidemiology · Cancer therapeutics and mechanisms
