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行为学和蛋白质组学研究揭示甲基乙二醛激活与阿尔茨海默病相关的通路。

Behavioral and Proteomic Studies Reveal Methylglyoxal Activate Pathways Associated with Alzheimer's Disease.

作者信息

Patil Gouri, Kulsange Shabda, Kazi Rubina, Chirmade Tejas, Kale Vaikhari, Mote Chandrashekhar, Aswar Manoj, Koratkar Santosh, Agawane Sachin, Kulkarni Mahesh

机构信息

Biochemical Sciences Division, CSIR-National Chemical Laboratory, Pune 411008, India.

Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201002, India.

出版信息

ACS Pharmacol Transl Sci. 2022 Dec 27;6(1):65-75. doi: 10.1021/acsptsci.2c00143. eCollection 2023 Jan 13.

DOI:10.1021/acsptsci.2c00143
PMID:36654748
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9841776/
Abstract

Diabetes is one of the major risk factors for Alzheimer's disease (AD) development. The role of elevated levels of glucose, methylglyoxal (MGO), and advanced glycation end products (AGEs) in the pathogenesis of AD is not well understood. In this pursuit, we studied the role of methylglyoxal in the pathogenesis of AD in rat models. The elevated plus-maze (EPM) behavioral study indicated that MGO induces anxiety. Treatment of telmisartan (RAGE expression inhibitor) and aminoguanidine (MGO quencher) attenuated MGO induced anxiety. Further, hippocampal proteomics demonstrated that MGO treated rats differentially regulate proteins involved in calcium homeostasis, mitochondrial functioning, and apoptosis, which may affect neurotransmission and neuronal plasticity. The hippocampal tau phosphorylation level was increased in MGO treated rats, which was reduced in the presence of aminoguanidine and telmisartan. The plasma fructosamine level was increased upon MGO treatment. Hippocampal histochemistry showed vascular degeneration and neuronal loss upon MGO treatment. This study provides mechanistic insight into the role of MGO in the diabetes-associated development of AD.

摘要

糖尿病是阿尔茨海默病(AD)发展的主要风险因素之一。葡萄糖、甲基乙二醛(MGO)和晚期糖基化终产物(AGEs)水平升高在AD发病机制中的作用尚未完全明确。在此研究中,我们在大鼠模型中研究了甲基乙二醛在AD发病机制中的作用。高架十字迷宫(EPM)行为学研究表明,MGO会诱发焦虑。替米沙坦(RAGE表达抑制剂)和氨基胍(MGO清除剂)治疗可减轻MGO诱发的焦虑。此外,海马蛋白质组学表明,经MGO处理的大鼠会差异调节参与钙稳态、线粒体功能和细胞凋亡的蛋白质,这可能会影响神经传递和神经元可塑性。在经MGO处理的大鼠中,海马tau蛋白磷酸化水平升高,而在存在氨基胍和替米沙坦的情况下则降低。MGO处理后血浆果糖胺水平升高。海马组织化学显示,MGO处理后出现血管退化和神经元丢失。本研究为MGO在糖尿病相关AD发展中的作用提供了机制性见解。

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