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锌转运蛋白ZnT的基因缺失通过损害树突棘可塑性和葡萄糖代谢,在小鼠中诱导进行性认知缺陷。

Genetic deletion of zinc transporter ZnT induces progressive cognitive deficits in mice by impairing dendritic spine plasticity and glucose metabolism.

作者信息

Zong Rui, Zhang Xiaoding, Dong Xiaohui, Liu Guan, Zhang Jieyao, Gao Yiting, Zhang Zhongyang, Ma Yiming, Gao Haixia, Gamper Nikita

机构信息

Department of Pharmacology, Center for Innovative Drug Research and Evaluation, Institute of Medical Science and Health, The Hebei Collaboration Innovation Center for Mechanism, Diagnosis and Treatment of Neurological and Psychiatric Disease, The Key Laboratory of Neural and Vascular Biology, Ministry of Education, Hebei Medical University, Shijiazhuang, Hebei, China.

Faculty of Biological Sciences, School of Biomedical Sciences, University of Leeds, Leeds, United Kingdom.

出版信息

Front Mol Neurosci. 2024 May 14;17:1375925. doi: 10.3389/fnmol.2024.1375925. eCollection 2024.

DOI:10.3389/fnmol.2024.1375925
PMID:38807922
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11130425/
Abstract

Zinc transporter 3 (ZnT) is abundantly expressed in the brain, residing in synaptic vesicles, where it plays important roles in controlling the luminal zinc levels. In this study, we found that ZnT knockout in mice decreased zinc levels in the hippocampus and cortex, and was associated with progressive cognitive impairments, assessed at 2, 6, and 9-month of age. The results of Golgi-Cox staining demonstrated that ZnT deficiency was associated with an increase in dendritic complexity and a decrease in the density of mature dendritic spines, indicating potential synaptic plasticity deficit. Since ZnT deficiency was previously linked to glucose metabolism abnormalities, we tested the expression levels of genes related to insulin signaling pathway in the hippocampus and cortex. We found that the Expression of glucose transporters, GLUT3, GLUT4, and the insulin receptor in the whole tissue and synaptosome fraction of the hippocampus of the ZnT knockout mice were significantly reduced, as compared to wild-type controls. Expression of AKT (A serine/threonine protein kinase) and insulin-induced AKT phosphorylation was also reduced in the hippocampus of ZnT knockout mice. We hypothesize that the ZnT deficiency and reduced brain zinc levels may cause cognitive impairment by negatively affecting glycose metabolism via decreased expression of key components of insulin signaling, as well as via changes in synaptic plasticity. These finding may provide new therapeutic target for treatments of neurodegenerative disorders.

摘要

锌转运体3(ZnT)在大脑中大量表达,存在于突触小泡中,在控制腔内锌水平方面发挥重要作用。在本研究中,我们发现小鼠中ZnT基因敲除会降低海马体和皮质中的锌水平,并与在2、6和9月龄时评估的进行性认知障碍有关。高尔基-考克斯染色结果表明,ZnT缺乏与树突复杂性增加和成熟树突棘密度降低有关,表明存在潜在的突触可塑性缺陷。由于之前发现ZnT缺乏与葡萄糖代谢异常有关,我们检测了海马体和皮质中与胰岛素信号通路相关基因的表达水平。我们发现,与野生型对照相比,ZnT基因敲除小鼠海马体的全组织和突触体部分中葡萄糖转运蛋白GLUT3、GLUT4以及胰岛素受体的表达显著降低。ZnT基因敲除小鼠海马体中AKT(一种丝氨酸/苏氨酸蛋白激酶)的表达以及胰岛素诱导的AKT磷酸化也降低。我们推测,ZnT缺乏和脑锌水平降低可能通过降低胰岛素信号关键成分的表达以及通过突触可塑性的变化对葡萄糖代谢产生负面影响,从而导致认知障碍。这些发现可能为神经退行性疾病的治疗提供新的治疗靶点。

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