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MiR-191-5p Attenuates Tau Phosphorylation, Aβ Generation, and Neuronal Cell Death by Regulating Death-Associated Protein Kinase 1

Long Wang, Xindong Shui, Mi Zhang, Yingxue Mei, Yongfang Xia, Guihua Lan, Li Na Hu, Chen‐Ling Gan, Yuan Tian, Ruomeng Li, Xi Gu, Tao Zhang, Dongmei Chen, Tae Ho Lee

2022ACS Chemical Neuroscience27 citationsDOI

Abstract

Dysregulation of microRNAs has been implicated in diverse diseases, including Alzheimer's disease (AD). MiR-191-5p in plasma/serum has been identified as a novel and promising noninvasive diagnostic biomarker for AD. However, whether miR-191-5p is involved in AD pathogenesis is largely unknown, and its levels in human AD brains are undetermined. Herein, we demonstrated that miR-191-5p downregulated tau phosphorylation at multiple AD-related sites and promoted neurite outgrowth using immunoblotting, immunofluorescence, and neurite outgrowth assays. Moreover, immunoblotting and enzyme-linked immunosorbent assays indicated that miR-191-5p decreased amyloid precursor protein phosphorylation levels and beta-amyloid (Aβ) generation. Furthermore, miR-191-5p reduced ceramide-induced neuronal cell death analyzed by trypan blue staining, the in situ cell death detection kit, and Annexin V-FITC/PI flow cytometry. Next, we verified that death-associated protein kinase 1 (DAPK1) was a direct target of miR-191-5p through the dual luciferase reporter assay and confirmed that the effects of miR-191-5p were antagonized by restoration of DAPK1 expression. Finally, the hippocampal miR-191-5p level was found to be decreased in humans with AD compared with controls and was inversely correlated with the DAPK1 expression level. Collectively, these findings suggest that miR-191-5p might exert inhibitory effects on tau phosphorylation, Aβ secretion, and neuronal cell death by directly targeting DAPK1, providing an attractive therapeutic option for AD.

Topics & Concepts

Programmed cell deathPhosphorylationCell biologyBiologyNeuriteTau proteinKinaseProtein kinase AFlow cytometryAnnexinMolecular biologyAlzheimer's diseaseApoptosisBiochemistryMedicineInternal medicineDiseaseIn vitroMicroRNA in disease regulationExtracellular vesicles in diseaseAlzheimer's disease research and treatments
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