依美格列明可改善永生化成年小鼠雪旺氏IMS32细胞中的高血糖及低血糖诱导的细胞死亡和线粒体功能障碍。

Imeglimin improves hyperglycemia and hypoglycemia-induced cell death and mitochondrial dysfunction in immortalized adult mouse Schwann IMS32 cells.

作者信息

Kato Ayako, Nihei Wataru, Yako Hideji, Tatsumi Yasuaki, Himeno Tatsuhito, Kondo Masaki, Kato Yoshiro, Nakamura Jiro, Kamiya Hideki, Sango Kazunori, Kato Koichi

机构信息

Laboratory of Medicine, Aichi Gakuin University School of Pharmacy, Nagoya, Aichi, Japan.

Diabetic Neuropathy Project, Department of Sensory and Motor Systems, Tokyo Metropolitan Institute of Medical Science, Tokyo, Japan.

出版信息

J Diabetes Investig. 2025 Sep;16(9):1586-1596. doi: 10.1111/jdi.70092. Epub 2025 Jun 13.

DOI:10.1111/jdi.70092

PMID:40509800

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12400351/

Abstract

AIMS/INTRODUCTION: Imeglimin, a novel oral antidiabetic drug, enhances glucose-stimulated insulin secretion, improves insulin sensitivity, and reduces mitochondrial reactive oxygen species (ROS) generation. Diabetic neuropathy is driven by oxidative stress caused by hyperglycemia, with mitochondrial ROS overproduction playing a central role. Hypoglycemia also contributes to oxidative stress. This study evaluates the effects of imeglimin on Schwann cells under high- and low-glucose conditions.

MATERIALS AND METHODS

We used IMS32 cells, an immortalized mouse Schwann cell line, to investigate cell survival and mitochondrial function under normal, high-, and low-glucose conditions. Assessments included mitochondrial oxidative stress, cytochrome c release, mitochondrial membrane potential, oxygen consumption rate (OCR), Complex I activity, and ATP synthesis.

RESULTS

High- and low-glucose conditions caused cell death, elevated mitochondrial ROS, triggered cytochrome c release, disrupted mitochondrial membrane potential, and increased OCR and Complex I activity, while suppressing ATP synthesis. Imeglimin treatment mitigated cell death, reduced oxidative stress, restored mitochondrial membrane potential, normalized OCR and Complex I activity, and improved ATP synthesis under both glucose conditions.

CONCLUSIONS

Fluctuations in glucose levels impair mitochondrial function in Schwann cells, contributing to peripheral nerve damage in diabetic neuropathy. Imeglimin demonstrated protective effects by alleviating mitochondrial dysfunction and preventing apoptosis signaling. These findings suggest the potential application of imeglimin in preventing and treating diabetic neuropathy; however, the clinical implications require further investigation.

摘要

目的/引言：依美格列明是一种新型口服抗糖尿病药物，可增强葡萄糖刺激的胰岛素分泌，改善胰岛素敏感性，并减少线粒体活性氧（ROS）生成。糖尿病神经病变由高血糖引起的氧化应激驱动，线粒体ROS过度产生起核心作用。低血糖也会导致氧化应激。本研究评估依美格列明在高糖和低糖条件下对雪旺细胞的影响。

材料与方法

我们使用永生化小鼠雪旺细胞系IMS32细胞，研究正常、高糖和低糖条件下的细胞存活和线粒体功能。评估指标包括线粒体氧化应激、细胞色素c释放、线粒体膜电位、氧消耗率（OCR）、复合体I活性和ATP合成。

结果

高糖和低糖条件均导致细胞死亡、线粒体ROS升高、触发细胞色素c释放、破坏线粒体膜电位，并增加OCR和复合体I活性，同时抑制ATP合成。依美格列明治疗减轻了细胞死亡，降低了氧化应激，恢复了线粒体膜电位，使两种葡萄糖条件下的OCR和复合体I活性正常化，并改善了ATP合成。

结论

葡萄糖水平波动损害雪旺细胞的线粒体功能，导致糖尿病神经病变中的周围神经损伤。依美格列明通过减轻线粒体功能障碍和预防凋亡信号传导显示出保护作用。这些发现表明依美格列明在预防和治疗糖尿病神经病变方面具有潜在应用价值；然而，其临床意义需要进一步研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e31a/12400351/3f8e2f39519c/JDI-16-1586-g004.jpg

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依美格列明可改善永生化成年小鼠雪旺氏IMS32细胞中的高血糖及低血糖诱导的细胞死亡和线粒体功能障碍。

Imeglimin improves hyperglycemia and hypoglycemia-induced cell death and mitochondrial dysfunction in immortalized adult mouse Schwann IMS32 cells.

作者信息

机构信息

出版信息

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

材料与方法

结果

结论

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