AI Article Synopsis
- - Mycobacterium tuberculosis and related species pose a significant global health challenge due to their resistance to antibiotics, making treatment difficult.
- - The study focuses on WhiB7, a protein that helps mycobacteria resist antibiotics, and aims to clarify the signals and genes that regulate its expression using Mycobacterium smegmatis as a model organism.
- - Researchers identified two key regulatory processes for WhiB7: premature termination of its transcript and activation of its promoter, potentially leading to new strategies for overcoming antibiotic resistance in mycobacterial infections.
Article Abstract
Diseases caused by various Mycobacterium sp., especially Mycobacterium tuberculosis, are a major burden on global health care. Due to high intrinsic antibiotic resistance, treatment options are severely limited. In mycobacteria, WhiB7 coordinates intrinsic resistance to a broad range of antibiotics. While WhiB7 has been established as an auto-regulatory transcriptional activator, the signals and genes needed to induce its expression are poorly understood. Using Mycobacterium smegmatis as a model, we coupled transposon mutagenesis and next generation sequencing with WhiB7-specific antibiotic selection to identify genes that contribute to WhiB7 regulation and function. We showed that whiB7 expression was regulated by two coordinated processes: early termination of the whiB7 transcript and increased whiB7 promoter activity. Early termination was irreversibly maintained by constitutive expression of a putative aspartate aminotransferase gene, MSMEG_4060. A pair of hypothetical genes, MSMEG_3637 and MSMEG_3638, were identified as important contributors to whiB7 promoter induction on antibiotic challenge. Expansion of our understanding of the WhiB7-resistance pathway may lead to identification of inhibitors that allow the use of previously ineffective antibiotics to treat mycobacterial diseases.
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| http://dx.doi.org/10.1111/mmi.13890 | DOI Listing |
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