{"title":"内溶酶体网络紊乱重编程 SorL1 缺失大鼠海马的能量代谢","authors":"Yajie Wang, Yuting Yang, Ying Cai, Ayikaimaier Aobulikasimu, Yuexin Wang, Chuanwei Hu, Zhikang Miao, Yue Shao, Mengna Zhao, Yue Hu, Chang Xu, Xinjun Chen, Zhiqiang Li, Jincao Chen, Lianrong Wang, Shi Chen","doi":"10.1002/advs.202407709","DOIUrl":null,"url":null,"abstract":"<p><i>Sortilin-related receptor 1</i> (<i>SorL1</i>) deficiency is a genetic predisposition to familial Alzheimer’s disease (AD), but its pathology is poorly understood. In <i>SorL1</i>-null rats, a disorder of the global endosome-lysosome network (ELN) is found in hippocampal neurons. Deletion of <i>amyloid precursor protein</i> (<i>APP</i>) in <i>SorL1</i>-null rats could not completely rescue the neuronal abnormalities in the ELN of the hippocampus and the impairment of spatial memory in <i>SorL1</i>-null young rats. These in vivo observations indicated that APP is one of the cargoes of <i>SorL1</i> in the regulation of the ELN, which affects hippocampal-dependent memory. When <i>SorL1</i> is depleted, the endolysosome takes up more of the lysosome flux and damages lysosomal digestion, leading to pathological lysosomal storage and disturbance of cholesterol and iron homeostasis in the hippocampus. These disturbances disrupt the original homeostasis of the material-energy-subcellular structure and reprogram energy metabolism based on fatty acids in the <i>SorL1</i>-null hippocampus, instead of glucose. Although fatty acid oxidation increases ATP supply, it cannot reduce the levels of the harmful byproduct ROS during oxidative phosphorylation, as it does in glucose catabolism. Therefore, the <i>SorL1</i>-null rats exhibit hippocampal degeneration, and their spatial memory is impaired. Our research sheds light on the pathology of <i>SorL1</i> deficiency in AD.</p>","PeriodicalId":117,"journal":{"name":"Advanced Science","volume":null,"pages":null},"PeriodicalIF":14.3000,"publicationDate":"2024-09-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11538633/pdf/","citationCount":"0","resultStr":"{\"title\":\"Endo-Lysosomal Network Disorder Reprograms Energy Metabolism in SorL1-Null Rat Hippocampus\",\"authors\":\"Yajie Wang, Yuting Yang, Ying Cai, Ayikaimaier Aobulikasimu, Yuexin Wang, Chuanwei Hu, Zhikang Miao, Yue Shao, Mengna Zhao, Yue Hu, Chang Xu, Xinjun Chen, Zhiqiang Li, Jincao Chen, Lianrong Wang, Shi Chen\",\"doi\":\"10.1002/advs.202407709\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><i>Sortilin-related receptor 1</i> (<i>SorL1</i>) deficiency is a genetic predisposition to familial Alzheimer’s disease (AD), but its pathology is poorly understood. In <i>SorL1</i>-null rats, a disorder of the global endosome-lysosome network (ELN) is found in hippocampal neurons. Deletion of <i>amyloid precursor protein</i> (<i>APP</i>) in <i>SorL1</i>-null rats could not completely rescue the neuronal abnormalities in the ELN of the hippocampus and the impairment of spatial memory in <i>SorL1</i>-null young rats. These in vivo observations indicated that APP is one of the cargoes of <i>SorL1</i> in the regulation of the ELN, which affects hippocampal-dependent memory. When <i>SorL1</i> is depleted, the endolysosome takes up more of the lysosome flux and damages lysosomal digestion, leading to pathological lysosomal storage and disturbance of cholesterol and iron homeostasis in the hippocampus. These disturbances disrupt the original homeostasis of the material-energy-subcellular structure and reprogram energy metabolism based on fatty acids in the <i>SorL1</i>-null hippocampus, instead of glucose. Although fatty acid oxidation increases ATP supply, it cannot reduce the levels of the harmful byproduct ROS during oxidative phosphorylation, as it does in glucose catabolism. Therefore, the <i>SorL1</i>-null rats exhibit hippocampal degeneration, and their spatial memory is impaired. 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引用次数: 0
摘要
Sortilin相关受体1(SorL1)缺乏症是家族性阿尔茨海默病(AD)的一种遗传易感性,但对其病理却知之甚少。在SorL1基因缺失的大鼠中,海马神经元的全局内含体-溶酶体网络(ELN)出现紊乱。在SorL1-null大鼠体内删除淀粉样前体蛋白(APP)并不能完全缓解海马ELN神经元的异常以及SorL1-null幼鼠空间记忆的损伤。这些体内观察结果表明,APP是SorL1调控ELN的载体之一,影响了海马依赖性记忆。当SorL1消耗殆尽时,溶酶体内体会占据更多的溶酶体通量,并破坏溶酶体消化,导致海马中溶酶体的病理性储存以及胆固醇和铁的平衡紊乱。这些干扰破坏了物质-能量-亚细胞结构的原有平衡,并在 SorL1 缺失的海马中重新规划了以脂肪酸而非葡萄糖为基础的能量代谢。虽然脂肪酸氧化增加了 ATP 的供应,但它不能像葡萄糖分解代谢那样,在氧化磷酸化过程中降低有害副产物 ROS 的水平。因此,SorL1-null 大鼠表现出海马退化,空间记忆受损。我们的研究揭示了缺乏SorL1导致注意力缺失症的病理过程。
Endo-Lysosomal Network Disorder Reprograms Energy Metabolism in SorL1-Null Rat Hippocampus
Sortilin-related receptor 1 (SorL1) deficiency is a genetic predisposition to familial Alzheimer’s disease (AD), but its pathology is poorly understood. In SorL1-null rats, a disorder of the global endosome-lysosome network (ELN) is found in hippocampal neurons. Deletion of amyloid precursor protein (APP) in SorL1-null rats could not completely rescue the neuronal abnormalities in the ELN of the hippocampus and the impairment of spatial memory in SorL1-null young rats. These in vivo observations indicated that APP is one of the cargoes of SorL1 in the regulation of the ELN, which affects hippocampal-dependent memory. When SorL1 is depleted, the endolysosome takes up more of the lysosome flux and damages lysosomal digestion, leading to pathological lysosomal storage and disturbance of cholesterol and iron homeostasis in the hippocampus. These disturbances disrupt the original homeostasis of the material-energy-subcellular structure and reprogram energy metabolism based on fatty acids in the SorL1-null hippocampus, instead of glucose. Although fatty acid oxidation increases ATP supply, it cannot reduce the levels of the harmful byproduct ROS during oxidative phosphorylation, as it does in glucose catabolism. Therefore, the SorL1-null rats exhibit hippocampal degeneration, and their spatial memory is impaired. Our research sheds light on the pathology of SorL1 deficiency in AD.
期刊介绍:
Advanced Science is a prestigious open access journal that focuses on interdisciplinary research in materials science, physics, chemistry, medical and life sciences, and engineering. The journal aims to promote cutting-edge research by employing a rigorous and impartial review process. It is committed to presenting research articles with the highest quality production standards, ensuring maximum accessibility of top scientific findings. With its vibrant and innovative publication platform, Advanced Science seeks to revolutionize the dissemination and organization of scientific knowledge.
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