Exosomes Derived From Human Mesenchymal Stem Cells Mitigate Follicular Interstitial Cell Ferroptosis via the miR-26a-5p/PTEN/GPX4 Axis in Rats with Chemotherapy-Induced Premature Ovarian Insufficiency.

IF 6.5 2区医学 Q1 NANOSCIENCE & NANOTECHNOLOGY

International Journal of Nanomedicine Pub Date : 2025-08-22 eCollection Date: 2025-01-01 DOI:10.2147/IJN.S532207

Juntong Chen, Xingyu Huo, Maojiao Qian, Qian Xue, Yu He, Pengzhan Xu, Yueming Wang, Xiaoxuan Tang, Qianqian Luo, Hongchu Bao, Yanlian Xiong

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引用次数: 0

Abstract

Background: Premature ovarian insufficiency (POI) is a persistent condition in young women characterized by early follicular development disorders and reduced fertility. Research has found that exosomes derived from human umbilical mesenchymal stem cells (hUCMSC-Exo) have significant tissue repair effects. This study aims to investigate the therapeutic effect and potential molecular mechanism of hUCMSC-Exo on POI.

Methods: In vivo experiments were conducted by intraperitoneally injecting the chemotherapy drug cyclophosphamide (CTX) to establish a 14-day POI rat model. Serum hormone levels were measured using an enzyme-linked immunosorbent assay, and changes in ovarian tissue structure were analyzed using hematoxylin-eosin (HE) staining. Perls staining and transmission electron microscopy were used to assess changes in ovarian ferroptosis. In vitro experiments involved exposing theca interna cells (TICs) treated with CTX to normal and miR-26a-5p inhibitor-treated hUCMSC-Exo. The expression changes of PTEN, Nrf2, and GPX4, which are associated with ferroptosis, were analyzed using immunofluorescence, Western blot, and quantitative reverse-transcription polymerase chain reaction.

Results: hUCMSC-Exo intervention can significantly repair the ovarian tissue structure and functional abnormalities in the model rats, especially ferroptosis. Further bioinformatics analysis revealed that the inhibition of the PTEN/GPX4 pathway-mediated ferroptosis in TICs might be the main mechanism through which exosomes exert their regulatory/therapeutic effects. In vitro experiments, where exosome miR-26a-5p was inhibited, further confirmed that the delivery of miR-26a-5p is crucial for the regulatory effect of exosomes.

Conclusion: In conclusion, our results suggest that hUCMSC-Exos alleviates POI-related dysfunction of ovarian structure and function. The mechanism could be related to the transfers of miR-26a-5p and suppression of PTEN/GPX4 axis signaling-mediated autophagy of TICs. It provides a new perspective for developing treatment methods for patients with metabolic abnormalities related to POI.

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来自人间充质干细胞的外泌体通过miR-26a-5p/PTEN/GPX4轴减轻化疗诱导的卵巢早衰大鼠滤泡间质细胞铁下垂

背景：卵巢功能不全（POI）是年轻女性的一种持续性疾病，其特征是早期卵泡发育障碍和生育能力降低。研究发现，来自人脐带间充质干细胞的外泌体具有显著的组织修复作用。本研究旨在探讨hUCMSC-Exo对POI的治疗作用及可能的分子机制。方法：采用腹腔注射化疗药物环磷酰胺（cyclophosphamide， CTX）建立POI大鼠模型。采用酶联免疫吸附法测定血清激素水平，并用苏木精-伊红（HE）染色分析卵巢组织结构的变化。Perls染色和透射电镜观察卵巢铁下垂的变化。体外实验涉及将CTX处理的caa interna cells （TICs）暴露于正常和miR-26a-5p抑制剂处理的hUCMSC-Exo。采用免疫荧光、Western blot和定量逆转录聚合酶链反应分析与铁下垂相关的PTEN、Nrf2和GPX4的表达变化。结果：hUCMSC-Exo干预能明显修复模型大鼠卵巢组织结构和功能异常，尤其是铁下垂。进一步的生物信息学分析表明，抑制PTEN/GPX4途径介导的铁下垂可能是外泌体发挥其调节/治疗作用的主要机制。体外实验中，外泌体miR-26a-5p被抑制，进一步证实miR-26a-5p的递送对于外泌体的调控作用至关重要。结论：综上所述，我们的研究结果表明，hUCMSC-Exos可以缓解poi相关的卵巢结构和功能障碍。其机制可能与miR-26a-5p的转移和PTEN/GPX4轴信号介导的tic自噬抑制有关。这为POI相关代谢异常患者的治疗方法提供了新的视角。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Nanomedicine NANOSCIENCE & NANOTECHNOLOGY-PHARMACOLOGY & PHARMACY

CiteScore

14.40

自引率

3.80%

发文量

511

审稿时长

1.4 months

期刊介绍： The International Journal of Nanomedicine is a globally recognized journal that focuses on the applications of nanotechnology in the biomedical field. It is a peer-reviewed and open-access publication that covers diverse aspects of this rapidly evolving research area. With its strong emphasis on the clinical potential of nanoparticles in disease diagnostics, prevention, and treatment, the journal aims to showcase cutting-edge research and development in the field. Starting from now, the International Journal of Nanomedicine will not accept meta-analyses for publication.