Small RNA MTS1338 Configures a Stress Resistance Signature in Mycobacterium tuberculosis

• Main Authors: Azhikina, T.L (Author), Bychenko, O.S (Author), Grigorov, A.S (Author), Martini, B.A (Author), Salina, E.G (Author), Skvortsova, Y.V (Author)
• Format: Article
• Language: English
• Published: MDPI 2023
• Subjects: Mycobacterium tuberculosis; pathogen; RNA-seq; small non-coding RNA; stress resistance; survival; transcriptomic signature
• Online Access: View Fulltext in Publisher; View in Scopus

 In the course of evolution, Mycobacterium tuberculosis (Mtb), the etiological agent of tuberculosis, has developed sophisticated strategies to evade host immune response, including the synthesis of small non-coding RNAs (sRNAs), which regulate post-transcriptional pathways involved in the stress adaptation of mycobacteria. sRNA MTS1338 is upregulated in Mtb during its infection of cultured macrophages and in the model of chronic tuberculosis, suggesting involvement in host–pathogen interactions. Here, we analyzed the role of MTS1338 in the Mtb response to macrophage-like stresses in vitro. The Mtb strain overexpressing MTS1338 demonstrated enhanced survival ability under low pH, nitrosative, and oxidative stress conditions simulating the antimicrobial environment inside macrophages. Transcriptomic analysis revealed that in MTS1338-overexpressing Mtb, the stress factors led to the activation of a number of transcriptional regulators, toxin–antitoxin modules, and stress chaperones, about half of which coincided with the genes induced in Mtb phagocytosed by macrophages. We determined the MTS1338 “core regulon”, consisting of 11 genes that were activated in all conditions under MTS1338 overexpression. Our findings indicate that MTS1338 is a stress-induced sRNA that promotes Mtb survival in macrophages by triggering adaptive transcriptional mechanisms in response to host antimicrobial defense reactions. © 2023 by the authors.