线粒体
糖尿病
认知
细胞生物学
神经科学
钙信号传导
海马结构
钙
信号转导
医学
心理学
生物
化学
内分泌学
内科学
作者
Jiaxiu Li,Ya Hui,Zhiqiang Xu,Jie Tan,Kai Yin,Liuyu Kuang,Yunyun Tang,Junjie Wei,Qiongsui Zhong,Tianpeng Zheng
出处
期刊:iScience
[Cell Press]
日期:2023-02-27
卷期号:26 (3): 106271-106271
被引量:8
标识
DOI:10.1016/j.isci.2023.106271
摘要
DPP4 has been shown to induce diabetes-associated mitochondrial dysfunction and cognitive impairment through its non-canonical function. Here, we report that enhanced DPP4 expression in diabetes contributes to IP3R2-mediated mitochondria-associated ER membrane (MAM) formation, mitochondria calcium overload, and cognitive impairment, and its knockdown showed opposite effects. Mechanistically, DPP4 binds to PAR2 in hippocampal neurons and activates ERK1/2/CEBPB signaling, which upregulates ERp29 expression and promotes its binding to IP3R2, thereby inhibiting IP3R2 degradation and promoting MAM formation, mitochondria calcium overload, and cognitive impairment. Meanwhile, targeting DPP4-mediated PAR2/ERK1/2/CEBPB/ERp29 signaling achieved satisfactory therapeutic effects on MAM formation, mitochondria calcium overload, and cognitive impairment. Notably, DPP4 activates this pathway in an enzymatic activity-independent manner, suggesting the non-canonical role of DPP4 in the pathogenesis of mitochondria calcium overload and cognitive impairment in diabetes. Together, these results identify DPP4-mediated PAR2/ERK1/2/CEBPB/ERp29 signaling as a promising therapeutic target for the treatment of cognitive impairment in type 2 diabetes.
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