BM-derived mesenchymal stem cell microvesicles protect enteric neural precursor cells and alleviate diabetes-associated enteric neuropathy
Huiying Shi, Hailing Yao, Yilin Liu, Mengke Fan, Sicheng Cai, Shizhao Xu, Chen Jiang, Yurui Zhang, Weiwei Jiang, Wei Qian, Rong Lin
Huiying Shi, Hailing Yao, Yilin Liu, Mengke Fan, Sicheng Cai, Shizhao Xu, Chen Jiang, Yurui Zhang, Weiwei Jiang, Wei Qian, Rong Lin
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Research Article Gastroenterology Neuroscience

BM-derived mesenchymal stem cell microvesicles protect enteric neural precursor cells and alleviate diabetes-associated enteric neuropathy

Abstract

Enteric nervous system (ENS) injury, characterized by progressive degeneration of enteric neurons and glial cells, is a common diabetic complication with no effective cure beyond symptomatic management. Enteric neural precursor cells (ENPCs) play a key role in maintaining neurogenesis and gliogenesis within the adult ENS. Here, we demonstrate that bone marrow mesenchymal stem cell–derived microvesicles (BMSC-MVs) alleviate diabetic ENS injury. In both diabetic patients and mouse models, gastrointestinal transit was delayed, ENS structure was impaired, and neurogenesis and gliogenesis from ENPCs were elevated yet remained functionally insufficient. Transcriptomic profiling revealed activation of ER stress and the pro-apoptotic PERK branch of the unfolded protein response in ENPCs. BMSC-MVs homed to the colon, were internalized by ENPCs, and suppressed ER stress, thereby enhancing functional neurogenesis and gliogenesis, restoring ENS structure, and improving gastrointestinal motility. Mechanistically, vinculin on BMSC-MVs bound talin-1 on ENPCs, activating the ERK pathway to suppress diabetic ER stress. These results identify BMSC-MVs as a promising cell-free therapeutic strategy for diabetic ENS injury.

Authors

Huiying Shi, Hailing Yao, Yilin Liu, Mengke Fan, Sicheng Cai, Shizhao Xu, Chen Jiang, Yurui Zhang, Weiwei Jiang, Wei Qian, Rong Lin

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