作为关节炎分子机制的软骨细胞噬铁蛋白--叙述性综述。

IF 1.8 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Yong Liu, Chao Song, Silong Gao, Daqian Zhou, Jiale Lv, Yang Zhou, Liquan Wang, Houyin Shi, Fei Liu, Zhongwei Xiong, Yunqing Hou, Zongchao Liu
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引用次数: 0

摘要

骨关节炎(OA)是影响骨科患者的一种常见关节疾病。其发病率正在稳步上升,给个人和整个社会造成了巨大的经济损失。OA 与遗传、肥胖和关节疾病等风险因素有关,但其病理生理学仍在很大程度上为人所知。目前,有几种细胞死亡途径控制着 OA 的发生和发展。研究发现,OA 的发生和发展与热凋亡、衰老、细胞凋亡、铁凋亡和自噬密切相关。目前尚未对 OA 中的铁变性和自噬进行深入研究,而阐明它们在软骨细胞中的分子机制对于诊断 OA 非常重要。为此,我们回顾了最近国内外的研究进展,并初步了解了 OA 中自噬和铁突变的分子途径。我们通过在 PUBMED、Web of Science 和 Google Scholar 三个数据库中搜索关键词 "骨关节炎、机械应力、Pizeo1、铁蛋白沉积、自噬、铁蛋白自噬",确定参考期为最近五年。然后,我们通过阅读摘要对无关文献进行了筛选。铁蛋白自噬是一种依赖于活性氧和 Fe2+ 的程序性细胞死亡。它主要是由氨基酸代谢、脂质过氧化和铁代谢过程引起的。此外,压电机械敏感离子通道组装 1(PIEZO1)由机械应力触发,已被发现与铁突变事件密切相关。研究发现,机械损伤通过 PIEZO1 触发了关节软骨细胞内环境的变化(如氧化应激水平升高和炎症加剧),最终导致软骨细胞中铁的死亡。因此,我们认为 PIEZO1 是软骨细胞铁死亡的关键启动蛋白。自噬广泛存在于真核细胞中,是一种依赖溶酶体、进化保守的分解代谢过程,它将折叠错误的蛋白质、受损的细胞器和其他大分子带到溶酶体中进行分解和再循环。在整个 OA 过程中,自噬都会在不同程度上被激活,这表明自噬可能在 OA 的发展过程中起着一定的作用。根据最新研究,自噬是导致细胞铁蛋白沉积过程的一个主要因素。尽管有人提出了噬铁蛋白的概念,但并没有太多的研究来阐明 OA 中的铁突变和自噬之间的联系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chondrocyte Ferritinophagy as a Molecular Mechanism of Arthritis-A Narrative Review.

Osteoarthritis (OA) is a prevalent joint disease affecting orthopedic patients. Its incidence is steadily increasing, causing great economic hardship for individuals and society as a whole. OA is connected with risk factors such as genetics, obesity, and joint diseases; yet, its pathophysiology is still largely understood. At present, several cell death pathways govern the initiation and advancement of OA. It has been discovered that the onset and progression of OA are strongly associated with pyroptosis, senescence, apoptosis, ferroptosis, and autophagy. Ferroptosis and autophagy have not been well studied in OA, and elucidating their molecular mechanisms in chondrocytes is important for the diagnosis of OA. For this reason, we aim was reviewed recent national and international developments and provided an initial understanding of the molecular pathways underlying autophagy and ferroptosis in OA. We determined the reference period to be the last five years by searching for the keywords "osteoarthritis, mechanical stress, Pizeo1, ferroptosis, autophagy, ferritin autophagy" in the three databases of PUBMED, Web of Science, Google Scholar. We then screened irrelevant literature by reading the abstracts. Ferroptosis is a type of programmed cell death that is dependent on reactive oxygen species and Fe2+. It is primarily caused by processes linked to amino acid metabolism, lipid peroxidation, and iron metabolism. Furthermore, Piezoelectric mechanically sensitive ion channel assembly 1 (PIEZO1), which is triggered by mechanical stress, has been revealed to be intimately associated with ferroptosis events. It was found that mechanical injury triggers changes in the intracellular environment of articular chondrocytes (e.g., elevated levels of oxidative stress and increased inflammation) through PIEZO1, ultimately leading to iron death in chondrocytes. Therefore, we believe that PIEZO1 is a key initiator protein of iron death in chondrocytes. Widely present in eukaryotic cells, autophagy is a lysosome-dependent, evolutionarily conserved catabolic process that carries misfolded proteins, damaged organelles, and other macromolecules to lysosomes for breakdown and recycling. Throughout OA, autophagy is activated to differing degrees, indicating that autophagy may play a role in the development of OA. According to recent research, autophagy is a major factor in the process that leads cells to ferroptosis. Despite the notion of ferritinophagy being put forth, not much research has been done to clarify the connection between ferroptosis and autophagy in OA.

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来源期刊
Cell Biochemistry and Biophysics
Cell Biochemistry and Biophysics 生物-生化与分子生物学
CiteScore
4.40
自引率
0.00%
发文量
72
审稿时长
7.5 months
期刊介绍: Cell Biochemistry and Biophysics (CBB) aims to publish papers on the nature of the biochemical and biophysical mechanisms underlying the structure, control and function of cellular systems The reports should be within the framework of modern biochemistry and chemistry, biophysics and cell physiology, physics and engineering, molecular and structural biology. The relationship between molecular structure and function under investigation is emphasized. Examples of subject areas that CBB publishes are: · biochemical and biophysical aspects of cell structure and function; · interactions of cells and their molecular/macromolecular constituents; · innovative developments in genetic and biomolecular engineering; · computer-based analysis of tissues, cells, cell networks, organelles, and molecular/macromolecular assemblies; · photometric, spectroscopic, microscopic, mechanical, and electrical methodologies/techniques in analytical cytology, cytometry and innovative instrument design For articles that focus on computational aspects, authors should be clear about which docking and molecular dynamics algorithms or software packages are being used as well as details on the system parameterization, simulations conditions etc. In addition, docking calculations (virtual screening, QSAR, etc.) should be validated either by experimental studies or one or more reliable theoretical cross-validation methods.
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