CD8 T Cell‐Derived Exosomal miR‐186‐5p Elicits Renal Inflammation via Activating Tubular TLR7/8 Signal Axis

Xiaodong Xu; Shuang Qu; Changming Zhang; Mingchao Zhang; Weisong Qin; Guisheng Ren; Hao Bao; Limin Li; Ke Zen; Zhihong Liu

doi:10.1002/advs.202301492

Advanced Science (Sep 2023)

CD8 T Cell‐Derived Exosomal miR‐186‐5p Elicits Renal Inflammation via Activating Tubular TLR7/8 Signal Axis

Xiaodong Xu,
Shuang Qu,
Changming Zhang,
Mingchao Zhang,
Weisong Qin,
Guisheng Ren,
Hao Bao,
Limin Li,
Ke Zen,
Zhihong Liu

Affiliations

Xiaodong Xu: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China
Shuang Qu: School of Life Science and Technology China Pharmaceutical University 639 Longmian AvenueNanjingJiangsu 211198China
Changming Zhang: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China
Mingchao Zhang: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China
Weisong Qin: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China
Guisheng Ren: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China
Hao Bao: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China
Limin Li: School of Life Science and Technology China Pharmaceutical University 639 Longmian AvenueNanjingJiangsu 211198China
Ke Zen: State Key Laboratory of Pharmaceutical Biotechnology Nanjing University School of Life Sciences NanjingJiangsu 210093China
Zhihong Liu: National Clinical Research Center of Kidney Diseases Jinling Hospital Nanjing University School of Medicine NanjingJiangsu 210002China

DOI: https://doi.org/10.1002/advs.202301492
Journal volume & issue: Vol. 10, no. 25
pp. n/a – n/a

Abstract

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Abstract T cells play an important role in the development of focal segmental glomerulosclerosis (FSGS). The mechanism underlying such T cell‐based kidney disease, however, remains elusive. Here the authors report that activated CD8 T cells elicit renal inflammation and tissue injury via releasing miR‐186‐5p‐enriched exosomes. Continuing the cohort study identifying the correlation of plasma level of miR‐186‐5p with proteinuria in FSGS patients, it is demonstrated that circulating miR‐186‐5p is mainly derived from activated CD8 T cell exosomes. Renal miR‐186‐5p, which is markedly increased in FSGS patients and mice with adriamycin‐induced renal injury, is mainly delivered by CD8 T cell exosomes. Depleting miR‐186‐5p strongly attenuates adriamycin‐induced mouse renal injury. Supporting the function of exosomal miR‐186‐5p as a key circulating pathogenic factor, intravenous injection of miR‐186‐5p or miR‐186‐5p‐containing T cell exosomes results in mouse renal inflammation and tissue injury. Tracing the injected T cell exosomes shows their preferential distribution in mouse renal tubules, not glomerulus. Mechanistically, miR‐186‐5p directly activates renal tubular TLR7/8 signal and initiates tubular cell apoptosis. Mutating the TLR7‐binding sequence on miR‐186‐5p or deleting mouse TLR7 largely abolishes renal tubular injuries induced by miR‐186‐5p or adriamycin. These findings reveal a causative role of exosomal miR‐186‐5p in T cell‐mediated renal dysfunction.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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