miR-135a-5p mediates memory and synaptic impairments via the Rock2/Adducin1 signaling pathway in a mouse model of Alzheimer’s disease

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作者
Kai Zheng
Fan Hu
Yang Zhou
Juan Zhang
Jie Zheng
Chuan Lai
Wan Xiong
Ke Cui
Ya-Zhuo Hu
Zhi-Tao Han
Hong-Hong Zhang
Jian-Guo Chen
Heng-Ye Man
Dan Liu
Youming Lu
Ling-Qiang Zhu
机构
[1] Huazhong University of Science and Technology,Department of Geriatrics, Tongji Hospital, Tongji Medical College
[2] Huazhong University of Science and Technology,Department of Pathophysiology, Key Lab of Neurological Disorder of Education Ministry, School of Basic Medicine, Tongji Medical College
[3] Beijing Key Laboratory of Aging and Geriatrics,The Institute of Brain Research, Collaborative Innovation Center for Brain Science
[4] National Clinical Research Center for Geriatric Disease,Department of Biology
[5] Institute of Geriatrics,undefined
[6] Chinese PLA General Hospital and Chinese PLA Medical Academy,undefined
[7] Huazhong University of Science and Technology,undefined
[8] Boston University,undefined
来源
Nature Communications | / 12卷
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摘要
Aberrant regulation of microRNAs (miRNAs) has been implicated in the pathogenesis of Alzheimer’s disease (AD), but most abnormally expressed miRNAs found in AD are not regulated by synaptic activity. Here we report that dysfunction of miR-135a-5p/Rock2/Add1 results in memory/synaptic disorder in a mouse model of AD. miR-135a-5p levels are significantly reduced in excitatory hippocampal neurons of AD model mice. This decrease is tau dependent and mediated by Foxd3. Inhibition of miR-135a-5p leads to synaptic disorder and memory impairments. Furthermore, excess Rock2 levels caused by loss of miR-135a-5p plays an important role in the synaptic disorder of AD via phosphorylation of Ser726 on adducin 1 (Add1). Blocking the phosphorylation of Ser726 on Add1 with a membrane-permeable peptide effectively rescues the memory impairments in AD mice. Taken together, these findings demonstrate that synaptic-related miR-135a-5p mediates synaptic/memory deficits in AD via the Rock2/Add1 signaling pathway, illuminating a potential therapeutic strategy for AD.
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