由羰基还原酶介导的施万细胞中适应性不良的外周生酮作用导致糖尿病性神经病变。

Maladaptive Peripheral Ketogenesis in Schwann Cells Mediated by CBR Contributes to Diabetic Neuropathy.

作者信息

Li Weizhen, Yang Tuo, Wang Ningning, Li Baolong, Meng Chuikai, Yu Kaiming, Zhou Xiongyao, Cao Rangjuan, Cui Shusen

机构信息

Department of Hand and Foot Surgery, China-Japan Union Hospital of Jilin University, Changchun, 130033, China.

Key Laboratory of Peripheral Nerve Injury and Regeneration of Jilin Province, Changchun, 130033, China.

出版信息

Adv Sci (Weinh). 2025 Apr;12(13):e2414547. doi: 10.1002/advs.202414547. Epub 2025 Jan 30.

DOI:10.1002/advs.202414547

PMID:39887953

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11967812/

Abstract

Diabetic peripheral neuropathy (DPN) is the most common complication of diabetes. Although studies have previously investigated metabolic disruptions in the peripheral nervous system (PNS), the exact metabolic mechanisms underlying DPN remain largely unknown. Herein, a specific form of metabolic remodeling involving aberrant ketogenesis within Schwann cells (SCs) in streptozotocin (STZ)-induced type I diabetes mellitus is identified. The PNS adapts poorly to such aberrant ketogenesis, resulting in disrupted energy metabolism, mitochondrial damage, and homeostatic decompensation, ultimately contributing to DPN. Additionally, the maladaptive peripheral ketogenesis is highly dependent on the cannabinoid type-1 receptor (CBR)-Hmgcs2 axis. Silencing CBR reprogrammed the metabolism of SCs by blocking maladaptive ketogenesis, resulting in rebalanced energy metabolism, reduced histopathological changes, and improved neuropathic symptoms. Moreover, this metabolic reprogramming can be induced pharmacologically using JD5037, a peripheral CBR blocker. These findings revealed a new metabolic mechanism underlying DPN, and promoted CBR as a promising therapeutic target for DPN.

摘要

糖尿病周围神经病变（DPN）是糖尿病最常见的并发症。尽管此前已有研究探讨了周围神经系统（PNS）中的代谢紊乱，但DPN确切的代谢机制仍 largely未知。在此，我们鉴定出一种特定形式的代谢重塑，其涉及链脲佐菌素（STZ）诱导的I型糖尿病中雪旺细胞（SCs）内异常的生酮作用。PNS对这种异常生酮作用的适应性较差，导致能量代谢紊乱、线粒体损伤和稳态失衡，最终促成DPN。此外，适应性不良的外周生酮作用高度依赖于1型大麻素受体（CBR）-Hmgcs2轴。沉默CBR可通过阻断适应性不良的生酮作用来重新编程SCs的代谢，从而使能量代谢重新平衡、组织病理学变化减轻并改善神经病变症状。此外，使用外周CBR阻滞剂JD5037可通过药理学方法诱导这种代谢重编程。这些发现揭示了DPN潜在的一种新的代谢机制，并使CBR成为DPN一个有前景的治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8fa0/11967812/190424c5991e/ADVS-12-2414547-g007.jpg

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由羰基还原酶介导的施万细胞中适应性不良的外周生酮作用导致糖尿病性神经病变。

Maladaptive Peripheral Ketogenesis in Schwann Cells Mediated by CBR Contributes to Diabetic Neuropathy.

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