KLF2 通过 SIRT1/GPX4 信号传导抑制软骨细胞的铁卟啉沉积并改善线粒体功能障碍,从而改善骨关节炎。

IF 3.5 4区 医学 Q2 CHEMISTRY, MEDICINAL
Jiaqi Shi, Li Chen, Xu Wang, Xin Ma
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引用次数: 0

摘要

骨关节炎(OA)是一种关节疾病,是导致老年人残疾的主要原因。抑制铁变态反应和改善线粒体功能可以延缓骨关节炎的进展。Kruppel 样因子 2(KLF2)对 OA 有保护作用。然而,KLF2 是否会影响 OA 期间的铁蛋白沉积和线粒体功能仍是未知数。本研究构建了 OA 体内和体外模型。通过显微 CT 扫描评估了 OA 小鼠膝关节的结构损伤。H&E、SOFG、TB和TUNEL染色用于软骨组织的病理检查。采用 ELISA 检测炎症因子的含量。此外,还采用普鲁士蓝染色法测量软骨组织中的铁沉积,并通过免疫印迹法评估与铁突变相关的蛋白质水平。此外,还利用透射电子显微镜和 JC-1 染色法评估了线粒体的形态和功能。在白细胞介素(IL)-1β处理的C28/I2细胞中,测量了炎症因子、细胞内ROS、线粒体ROS、脂质ROS和Fe2+的水平。线粒体功能通过检测线粒体膜电位(MMP)、ATP、mPTP 和 OCR 水平进行评估。KLF2过表达可改善OA小鼠膝关节软骨的结构损伤。KLF2的上调抑制了OA小鼠膝软骨和IL-1β处理的C28/I2细胞中的铁突变,减轻了线粒体损伤。此外,KLF2 的过表达激活了体内和体外的 SIRT1/GPX4 信号传导。EX527的加入阻断了KLF2上调对IL-1β处理的C28/I2细胞中铁细胞凋亡和线粒体功能障碍的影响。总之,KLF2可通过SIRT1/GPX4信号传导抑制软骨细胞的铁突变并改善线粒体功能障碍,从而改善OA。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
KLF2 Inhibits Ferroptosis and Improves Mitochondrial Dysfunction in Chondrocyte Through SIRT1/GPX4 Signaling to Improve Osteoarthritis

Osteoarthritis (OA), a disease of articular joints, is the leading cause of disability in the elderly. Repressing ferroptosis and improving mitochondrial function can delay the progression of OA. Kruppel-like factor 2 (KLF2) exerts a protective effect on OA. However, whether KLF2 affects ferroptosis and mitochondrial function during OA remains unknown. The OA in vivo and in vitro models were constructed in this work. The structural damage of knee joint in OA mice was evaluated through Micro-CT scanning. H&E, SOFG, TB, and TUNEL staining were applied for pathological examination of cartilage tissues. ELISA was employed to examine the contents of inflammatory factors. Additionally, iron deposition in cartilage tissues was measured by Prussian blue staining, and the levels of proteins related to ferroptosis were assessed by immunoblotting. Besides, mitochondrial morphology and function were estimated using a transmission electron microscope and JC-1 staining. In interleukin (IL)-1β-treated C28/I2 cells, the levels of inflammatory factors, intracellular ROS, mitochondrial ROS, lipid ROS, and Fe2+ were measured. Mitochondrial function was evaluated by detecting the levels of mitochondrial membrane potential (MMP), ATP, mPTP, and OCR. KLF2 overexpression ameliorated the structural damage of knee cartilage in OA mice. KLF2 upregulation inhibited ferroptosis and alleviated mitochondrial damage in knee cartilage of OA mice and IL-1β-treated C28/I2 cells. Moreover, KLF2 overexpression activated SIRT1/GPX4 signaling in vivo and in vitro. EX527 addition blocked the influences of KLF2 upregulation on ferroptosis and mitochondrial dysfunction in IL-1β-treated C28/I2 cells. Altogether KLF2 inhibits ferroptosis and improves mitochondrial dysfunction in chondrocytes through SIRT1/GPX4 signaling to improve OA.

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来源期刊
CiteScore
6.40
自引率
2.60%
发文量
104
审稿时长
6-12 weeks
期刊介绍: Drug Development Research focuses on research topics related to the discovery and development of new therapeutic entities. The journal publishes original research articles on medicinal chemistry, pharmacology, biotechnology and biopharmaceuticals, toxicology, and drug delivery, formulation, and pharmacokinetics. The journal welcomes manuscripts on new compounds and technologies in all areas focused on human therapeutics, as well as global management, health care policy, and regulatory issues involving the drug discovery and development process. In addition to full-length articles, Drug Development Research publishes Brief Reports on important and timely new research findings, as well as in-depth review articles. The journal also features periodic special thematic issues devoted to specific compound classes, new technologies, and broad aspects of drug discovery and development.
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