间充质干细胞衍生的成纤维细胞生长因子通过抑制急性肾损伤后线粒体融合基础上的无抑制伸长来缓解衰老。

IF 7.1 2区 医学 Q1 CELL & TISSUE ENGINEERING
Kaiting Zhuang, Wenjuan Wang, Xumin Zheng, Xinru Guo, Cheng Xu, Xuejing Ren, Wanjun Shen, Qiuxia Han, Zhe Feng, Xiangmei Chen, Guangyan Cai
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引用次数: 0

摘要

背景:人脐源性间充质干细胞(hUC-MSCs)治疗急性肾损伤后(post-AKI)肾衰老的基本机制仍不清楚。细胞衰老需要以线粒体融合为基础的线粒体伸长。本研究试图通过hUC-间充质干细胞治疗AKI术后患者,剖析hUC-间充质干细胞在调节线粒体伸长相关衰老中的作用:方法:首先在C57小鼠中建立单侧肾缺血再灌注(uIRI)模型。方法:首先在 C57 小鼠中建立单侧肾缺血再灌注(uIRI)模型,然后通过囊下注射慢病毒转染的 hUC-间充质干细胞。移植两周后,利用组织化学染色和透射电子显微镜评估了 hUC-间充质干细胞治疗肾脏衰老、纤维化和线粒体功能的效果。为了进一步研究线粒体对 hUC-MSCs 分泌的调控,研究人员构建了缺氧的 HK-2 细胞。最后,在hUC-MSCs上清液中使用了HGF及其受体的抗体:结果:小鼠进行尿离子通道造影后,相继出现了线粒体融合失败、肾脏衰老和肾间质纤维化。随后,hUC-间充质干细胞在小鼠尿路造影后的疗效得到证实。随后,抑制 hUC-间充质干细胞衍生的 HGF 会显著影响 hUC-MSCs 的疗效,并导致线粒体伸长不能得到有效抑制,同时 PKA 和 drp1(Drp1pSer637)抑制性磷酸化的升高也得不到充分控制。因此,缓解肾脏衰老和纤维化的疗效也减弱了。此外,在用 hUC-MSCs 条件培养基处理缺氧的 HK-2 细胞时,阻断 HGF 或 cMet 的抗体也得到了类似的结果。PKA和Drp1pSer637诱导的线粒体伸长受hUC-MSCs衍生的HGF抑制,但在激活或过表达PKA的情况下被逆转:研究认为,hUC-MSCs衍生的HGF可通过其受体cMet抑制PKA-Drp1pSer637-线粒体伸长,从而缓解AKI后肾脏衰老和纤维化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MSCs-derived HGF alleviates senescence by inhibiting unopposed mitochondrial fusion-based elongation in post-acute kidney injury.

Background: The underlying mechanism of human umbilical-derived mesenchymal stem cells (hUC-MSCs) therapy for renal senescence in post-acute kidney injury (post-AKI) remains unclear. Unopposed mitochondrial fusion-based mitochondrial elongation is required for cellular senescence. This study attempted to dissect the role of hUC-MSCs therapy in modulating mitochondrial elongation-related senescence by hUC-MSCs therapy in post-AKI.

Methods: Initially, a unilateral renal ischemia-reperfusion (uIRI) model was established in C57 mice. Subsequently, lentivirus-transfected hUC-MSCs were given by subcapsular injection. Two weeks after transplantation, histochemical staining, and transmission electron microscopy were used to assess the efficacy of hUC-MSCs in treating renal senescence, fibrosis, and mitochondrial function. To further investigate the mitochondrial regulation of hUC-MSCs secretion, hypoxic HK-2 cells were built. Finally, antibodies of HGF and its receptor were used within the hUC-MSCs supernatant.

Results: Unopposed mitochondrial fusion, renal senescence, and renal interstitial fibrosis were successively identified after uIRI in mice. Then, the efficacy of hUC-MSCs after uIRI was confirmed. Subsequently, inhibiting hUC-MSCs-derived HGF significantly compromises the efficacy of hUC-MSCs and leads to ineffectively curbing mitochondrial elongation, accompanying insufficient control of elevated PKA and inhibitory phosphorylation of drp1 (Drp1pSer637). As a result, the treatment efficacy of renal senescence and fibrosis alleviation was also weakened. Furthermore, similar results were obtained with antibodies blocking HGF or cMet in hypoxic HK-2 cells treated with hUC-MSCs-condition medium for further proving. Uncurbed mitochondrial elongation induced by PKA and Drp1pSer637 was inhibited by hUC-MSCs derived HGF but reversed in the activation or overexpression of PKA.

Conclusions: The research concluded that hUC-MSCs-derived HGF can inhibit PKA-Drp1pSer637-mitochondrial elongation via its receptor cMet to alleviate renal senescence and fibrosis in post-AKI.

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来源期刊
Stem Cell Research & Therapy
Stem Cell Research & Therapy CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
13.20
自引率
8.00%
发文量
525
审稿时长
1 months
期刊介绍: Stem Cell Research & Therapy serves as a leading platform for translational research in stem cell therapies. This international, peer-reviewed journal publishes high-quality open-access research articles, with a focus on basic, translational, and clinical research in stem cell therapeutics and regenerative therapies. Coverage includes animal models and clinical trials. Additionally, the journal offers reviews, viewpoints, commentaries, and reports.
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