Exercise-Induced Reduction of IGF1R Sumoylation Attenuates Neuroinflammation in APP/PS1 Transgenic Mice

IF 13 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Journal of Advanced Research Pub Date : 2025-03-01 DOI:10.1016/j.jare.2024.03.025

Yisheng Chen , Xiaofeng Chen , Zhiwen Luo , Xueran Kang , Yunshen Ge , Renwen Wan , Qian Wang , Zhihua Han , Fangqi Li , Zhongcheng Fan , Yuchun Xie , Beijie Qi , Xintao Zhang , Zhenwei Yang , John H Zhang , Danping Liu , Yuzhen Xu , Dongyan Wu , Shiyi Chen

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Abstract

Introduction

Alzheimer's Disease (AD), a progressive neurodegenerative disorder, is marked by cognitive deterioration and heightened neuroinflammation. The influence of Insulin-like Growth Factor 1 Receptor (IGF1R) and its post-translational modifications, especially sumoylation, is crucial in understanding the progression of AD and exploring novel therapeutic avenues.

Objectives

This study investigates the impact of exercise on the sumoylation of IGF1R and its role in ameliorating AD symptoms in APP/PS1 mice, with a specific focus on neuroinflammation and innovative therapeutic strategies.

Methods

APP/PS1 mice were subjected to a regimen of moderate-intensity exercise. The investigation encompassed assessments of cognitive functions, alterations in hippocampal protein expressions, neuroinflammatory markers, and the effects of exercise on IGF1R and SUMO1 nuclear translocation. Additionally, the study evaluated the efficacy of KPT-330, a nuclear export inhibitor, as an alternative to exercise.

Results

Exercise notably enhanced cognitive functions in AD mice, possibly through modulations in hippocampal proteins, including Bcl-2 and BACE1. A decrease in neuroinflammatory markers such as IL-1β, IL-6, and TNF-α was observed, indicative of reduced neuroinflammation. Exercise modulated the nuclear translocation of SUMO1 and IGF1R in the hippocampus, thereby facilitating neuronal regeneration. Mutant IGF1R (MT IGF1R), lacking SUMO1 modification sites, showed reduced SUMOylation, leading to diminished expression of pro-inflammatory cytokines and apoptosis. KPT-330 impeded the formation of the IGF1R/RanBP2/SUMO1 complex, thereby limiting IGF1R nuclear translocation, inflammation, and neuronal apoptosis, while enhancing cognitive functions and neuron proliferation.

Conclusion

Moderate-intensity exercise effectively mitigates AD symptoms in mice, primarily by diminishing neuroinflammation, through the reduction of IGF1R Sumoylation. KPT-330, as a potential alternative to physical exercise, enhances the neuroprotective role of IGF1R by inhibiting SUMOylation through targeting XPO1, presenting a promising therapeutic strategy for AD.

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运动增强 IGF1R sumoylation 诱导的核转位可减少阿尔茨海默氏症小鼠的神经炎症。

阿尔茨海默病（AD）是一种进行性神经退行性疾病，其特征是认知能力下降和神经炎症加剧。胰岛素样生长因子1受体（IGF1R）及其翻译后修饰的影响，特别是sumoylation，对于了解AD的进展和探索新的治疗途径至关重要。目的：本研究探讨运动对APP/PS1小鼠IGF1R酰化的影响及其在改善AD症状中的作用，并特别关注神经炎症和创新治疗策略。方法对sapp /PS1小鼠进行中等强度运动。这项研究包括认知功能的评估、海马蛋白表达的改变、神经炎症标志物，以及运动对IGF1R和SUMO1核易位的影响。此外，该研究还评估了核输出抑制剂KPT-330作为运动替代品的功效。结果运动显著增强AD小鼠的认知功能，可能是通过调节海马蛋白，包括Bcl-2和BACE1。观察到神经炎症标志物如IL-1β、IL-6和TNF-α的减少，表明神经炎症减轻。运动调节海马中SUMO1和IGF1R的核易位，从而促进神经元再生。突变体IGF1R （MT IGF1R）缺乏SUMO1修饰位点，SUMO1化降低，导致促炎细胞因子表达减少和细胞凋亡。KPT-330抑制IGF1R/RanBP2/SUMO1复合物的形成，从而限制IGF1R核易位、炎症和神经元凋亡，同时增强认知功能和神经元增殖。结论中等强度的运动可有效减轻小鼠AD症状，主要是通过减少IGF1R summoylation来减少神经炎症。KPT-330作为体育锻炼的潜在替代品，通过靶向XPO1抑制SUMOylation来增强IGF1R的神经保护作用，为AD的治疗提供了一种很有前景的治疗策略。

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来源期刊

Journal of Advanced Research Multidisciplinary-Multidisciplinary

CiteScore

21.60

自引率

0.90%

发文量

280

审稿时长

12 weeks

期刊介绍： Journal of Advanced Research (J. Adv. Res.) is an applied/natural sciences, peer-reviewed journal that focuses on interdisciplinary research. The journal aims to contribute to applied research and knowledge worldwide through the publication of original and high-quality research articles in the fields of Medicine, Pharmaceutical Sciences, Dentistry, Physical Therapy, Veterinary Medicine, and Basic and Biological Sciences. The following abstracting and indexing services cover the Journal of Advanced Research: PubMed/Medline, Essential Science Indicators, Web of Science, Scopus, PubMed Central, PubMed, Science Citation Index Expanded, Directory of Open Access Journals (DOAJ), and INSPEC.