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Non-canonical function of DPP4 promotes cognitive impairment through ERp29-associated mitochondrial calcium overload in diabetes

Jiaxiu Li, Ya Hui, Zhiqiang Xu, Jie Tan, Kai Yin, Liuyu Kuang, Yunyun Tang, Junjie Wei, Qiongsui Zhong, Tianpeng Zheng

2023iScience19 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

MitochondrionDiabetes mellitusCognitionCell biologyNeuroscienceCalcium signalingHippocampal formationCalciumSignal transductionMedicinePsychologyBiologyChemistryEndocrinologyInternal medicineMitochondrial Function and PathologyAlzheimer's disease research and treatmentsPancreatic function and diabetes
Non-canonical function of DPP4 promotes cognitive impairment through ERp29-associated mitochondrial calcium overload in diabetes | Litcius