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Exosomes derived from HUVECs alleviate ischemia-reperfusion induced inflammation in neural cells by upregulating KLF14 expression

Affiliation
Department of Histology and Embryology ,Medical School of Nantong University ,Nantong ,China
Qin, Jianxin;
Affiliation
Department of Histology and Embryology ,Medical School of Nantong University ,Nantong ,China
Zhou, Lihong;
Affiliation
Department of Endocrinology ,Affiliated Hospital of Nantong University ,Nantong University ,Nantong ,China
Yu, Lei;
Affiliation
Department of Histology and Embryology ,Medical School of Nantong University ,Nantong ,China
Ye, Jingwen;
Affiliation
Nantong Xingzhong Cell Engineering Co. Ltd ,Nantong ,China
Wang, Feng;
Affiliation
Nantong Xingzhong Cell Engineering Co. Ltd ,Nantong ,China
Zhou, Jin;
Affiliation
Department of Endocrinology ,Affiliated Hospital of Nantong University ,Nantong University ,Nantong ,China
Gu, Yunjuan;
Affiliation
Department of Histology and Embryology ,Medical School of Nantong University ,Nantong ,China
Chen, Gang;
Affiliation
Department of Histology and Embryology ,Medical School of Nantong University ,Nantong ,China
Chen, Xia

Neuroinflammation plays a key role in the progression of secondary brain injury after ischemic stroke, and exosomes have been increasingly recognized to eliminate inflammatory responses through various mechanisms. This study aimed to explore the effect and possible mechanism of human umbilical vein endothelial cells derived exosomes (H-EXOs) on neuroinflammation. We established a transient middle cerebral artery occlusion/reperfusion (tMCAO/R) in male rats and oxygen-glucose-deprivation/reoxygenation (OGD/R) model in cultured neurons to mimic secondary brain injury after ischemic stroke in vivo . H-EXOs were administered at the same time of reperfusion. Results showed that the production of pro-inflammatory cytokines TNF-α, IL-1β, and IL-6, and the transcription factor Krüppel-like factor 14 (KLF14) were significantly increased both in rat brain tissue and cultured neural cells after ischemic-reperfusion (I/R) injury. H-EXOs treatment significantly improved the cultured cell viability, reduced infarct sizes, mitigated neurobehavioral defects, and alleviated the expression of pro-inflammatory cytokines compared with the control group, indicating that H-EXOs exerted anti-inflammatory effect against I/R injury. Further studies revealed that the anti-inflammatory effect of H-EXOs could be weakened by small-interfering RNA (siKLF4) transfection. KLF14 was a protective factor produced during cerebral ischemia-reperfusion injury. In conclusion, H-EXOs protect neurons from inflammation after I/R injury by enhancing KLF14 expression.

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License Holder: Copyright © 2024 Qin, Zhou, Yu, Ye, Wang, Zhou, Gu, Chen and Chen.

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