ELAVL1 Promotes Schwann Cell Oxidative Stress and Ferroptosis in Diabetic Neuropathy via ACSL4 mRNA Stabilization

基因敲除 雪旺细胞 氧化应激 细胞生物学 生物 髓鞘 坐骨神经 下调和上调 间充质干细胞 链脲佐菌素 细胞 免疫学 癌症研究 糖尿病神经病变 细胞生长 神经胶质 内分泌学 神经损伤 干细胞 中肠 信使核糖核酸 内科学 细胞培养 氧化磷酸化 周围神经病变 活力测定 糖尿病 索克斯10
作者
Dingwen He,Sikuan Zheng,Xiang Luo,Jiangminghao Zhao,Zhidong Peng,Chongzhi Pan,Xigao Cheng
出处
期刊:Glia [Wiley]
卷期号:74 (2): e70106-e70106
标识
DOI:10.1002/glia.70106
摘要

ELAVL1 is known to regulate mRNA stability in various diseases, but its role in ferroptosis and Schwann cell dysfunction in diabetic peripheral neuropathy (DPN) has not been previously explored. This study investigates the mechanistic role of ELAVL1 in Schwann cell ferroptosis and explores the therapeutic potential of bone marrow-derived mesenchymal stem cells (BMSCs) in alleviating DPN. We used a streptozotocin (STZ)-induced diabetic mouse model and high-glucose-treated Schwann cells to study DPN-associated neuropathy, oxidative stress, and ferroptosis. ELAVL1 expression was analyzed in DPN patients and diabetic mice. A Schwann cell-specific ELAVL1 knockout (ELAVL1-KO) mouse model was developed to assess its impact on nerve function and oxidative stress. Mechanistic studies examined ELAVL1 interaction with ACSL4 mRNA in ferroptosis. Finally, BMSCs were administered at different doses to evaluate their effects on the ELAVL1/ACSL4 pathway. We found that ELAVL1 was significantly upregulated in the sciatic nerves of DPN patients and STZ-induced DPN mice. ELAVL1 co-localized with Schwann cells and contributed to myelin damage, oxidative stress, and ferroptosis. Knockdown of ELAVL1 in Schwann cells improved sciatic nerve conduction, reduced oxidative stress, and restored myelin integrity in DPN mice. Mechanistically, ELAVL1 promoted ferroptosis by binding to the 3'-UTR of ACSL4 mRNA, thereby stabilizing ACSL4 expression. Notably, BMSC therapy downregulated ELAVL1 and ACSL4 expression in a dose-dependent manner, reducing oxidative stress, iron accumulation, and ferroptosis. In conclusion, ELAVL1 promotes Schwann cell ferroptosis in DPN via ACSL4 mRNA stabilization. Furthermore, BMSC therapy reduces ferroptosis by modulating the ELAVL1/ACSL4 axis, offering a promising approach for DPN treatment.
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