Circular RNA TRAPPC6B inhibits intracellular Mycobacterium tuberculosis growth while inducing autophagy in macrophages by targeting microRNA‐874‐3p

Hou‐Long Luo; Jiang Pi; Jun‐Ai Zhang; En‐Zhuo Yang; Huan Xu; Hong Luo; Ling Shen; Ying Peng; Gan‐Bin Liu; Cai‐Mei Song; Ke‐Yue Li; Xian‐Jin Wu; Bi‐Ying Zheng; Hong‐Bo Shen; Zheng W Chen; Jun‐Fa Xu

doi:10.1002/cti2.1254

Clinical & Translational Immunology (Jan 2021)

Circular RNA TRAPPC6B inhibits intracellular Mycobacterium tuberculosis growth while inducing autophagy in macrophages by targeting microRNA‐874‐3p

Hou‐Long Luo,
Jiang Pi,
Jun‐Ai Zhang,
En‐Zhuo Yang,
Huan Xu,
Hong Luo,
Ling Shen,
Ying Peng,
Gan‐Bin Liu,
Cai‐Mei Song,
Ke‐Yue Li,
Xian‐Jin Wu,
Bi‐Ying Zheng,
Hong‐Bo Shen,
Zheng W Chen,
Jun‐Fa Xu

Affiliations

Hou‐Long Luo: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Jiang Pi: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Jun‐Ai Zhang: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
En‐Zhuo Yang: Department of Microbiology and Immunology Center for Primate Biomedical Research University of Illinois College of Medicine Chicago IL USA
Huan Xu: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Hong Luo: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Ling Shen: Department of Microbiology and Immunology Center for Primate Biomedical Research University of Illinois College of Medicine Chicago IL USA
Ying Peng: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Gan‐Bin Liu: Department of Respiration Dongguan 6th Hospital Dongguan China
Cai‐Mei Song: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Ke‐Yue Li: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Xian‐Jin Wu: Department of Clinical Laboratory Huizhou Municipal Central Hospital Huizhou China
Bi‐Ying Zheng: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China
Hong‐Bo Shen: Clinic and Research Center of Tuberculosis Shanghai Key Lab of Tuberculosis Shanghai Pulmonary Hospital Tongji University School of Medicine Shanghai China
Zheng W Chen: Department of Microbiology and Immunology Center for Primate Biomedical Research University of Illinois College of Medicine Chicago IL USA
Jun‐Fa Xu: Department of Clinical Immunology Institute of Laboratory Medicine Guangdong Provincial Key Laboratory of Medical Molecular Diagnostics Guangdong Medical University Dongguan China

DOI: https://doi.org/10.1002/cti2.1254
Journal volume & issue: Vol. 10, no. 2
pp. n/a – n/a

Abstract

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Abstract Objectives Genetic and epigenetic mechanisms regulate antimicrobial immunity against Mycobacterium tuberculosis (Mtb) infection. Methods The present study assessed circular RNA TRAPPC6B (circTRAPPC6B) for antimicrobial immune functions and defined mechanisms wherein circTRAPPC6B regulates Mtb growth, autophagy and microRNA in macrophages. Results The Mtb infection of monocytes/macrophages resulted in a significantly decreased level of circTRAPPC6B that inhibited intracellular Mtb growth in macrophages. Conversely, circTRAPPC6B expression enhanced autophagy or autophagy‐associated protein LC3‐II production in Mtb‐infected macrophages. circTRAPPC6B‐enhanced autophagy aggregation or sequestration was also observed in fluorescence in situ hybridisation (FISH) analysis and confocal imaging. Mechanistically, circTRAPPC6B targets an inhibiting element miR‐874‐3p, as shown by bioinformatics, dual‐luciferase reporter gene analysis and pull‐down assay, respectively. Notably, miR‐874‐3p prohibited autophagy via suppressing autophagy protein ATG16L1 by binding to its 3′‐untranslated region (UTR) in Mtb‐infected macrophages and thus promoting intracellular Mtb growth. Concurrently, circTRAPPC6B enhanced autophagy in Mtb‐infected macrophages by blocking the ability of miR‐874‐3p to inhibit ATG16L1. Thus, circTRAPPC6B antagonises the ability of miR‐874‐3p to suppress ATG16L1 expression and activate and enhance autophagy sequestration to restrict Mtb growth in macrophages. Conclusion The current findings suggested that both circTRAPPC6B and miR‐874‐3p mechanisms can be explored as potential therapeutics against Mtb infection.

Published in Clinical & Translational Immunology

ISSN: 2050-0068 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Immunologic diseases. Allergy
Website: https://onlinelibrary.wiley.com/journal/20500068

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