Xiaoxin He, Kuanmin Tian, Xue Lin, Xiaolei Chen, Yajing Su, Zhidong Lu, Zhirong Chen, Liang Zhang, Peng Li, Long Ma, Gangning Feng, Xin Zhao, Zhibin Lan, Chen Zhang, Di Xue, Qunhua Jin
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引用次数: 0
摘要
软骨下骨的血管生成异常和血管通透性增加是与骨关节炎(OA)相关的关键机制。然而,导致 OA 中血管通透性增加的确切机制仍不清楚。本研究利用蛋白质组学鉴定了受损软骨下骨与正常软骨下骨相比的蛋白质表达。结果表明,Ras同源家族成员A(RhoA)可能与软骨下骨的血管通透性和OA中的铁变态反应有关。临床样本分析结果表明,OA软骨下骨中的 RhoA 表达量显著增加。这与蛋白质组学的研究结果一致。我们通过 Western 印迹、RT-PCR 和免疫荧光发现,RhoA 通过抑制内皮细胞(EC)间的粘附蛋白(zona occludens-1、connexin 43 和血管内皮-Cadherin)和肌动蛋白丝,显著增加了内皮细胞(EC)的通透性。此外,RhoA 还通过影响脂质过氧化和线粒体功能诱导铁氧化核心蛋白(谷胱甘肽过氧化物酶 4、溶质运载家族 7 成员 11 和酰基-CoA 合成酶长链家族成员 4,ACSL4),从而导致 ECs 铁氧化。这表明 RhoA、铁蛋白沉积和血管通透性之间存在关联。铁凋亡通过抑制血管内皮细胞间的粘附蛋白,明显增加了血管内皮细胞的通透性。RhoA 通过诱导心血管细胞的铁凋亡增加了血管的通透性。在体内,通过减轻内侧半月板不稳定的小鼠软骨退化和软骨下骨重塑,抑制 RhoA 和铁肽化能明显缓解 OA 的进展。总之,目前的研究结果表明,RhoA 通过诱导铁蛋白沉积增强了 OA 的血管通透性。这可能是早期预防和治疗 OA 的一种新策略。
Unveiling the role of RhoA and ferroptosis in vascular permeability: Implications for osteoarthritis.
Abnormal angiogenesis and increased vascular permeability of subchondral bone are key mechanisms related to osteoarthritis (OA). However, the precise mechanisms responsible for heightened vascular permeability in OA remain unclear. The present study used proteomics to identify protein expression in damaged subchondral bone compared with normal subchondral bone. The results suggest that Ras homolog family member A (RhoA) may be associated with the vascular permeability of subchondral bone and ferroptosis in OA. The results of analysis of clinical samples indicated a significant increase in expression of RhoA in the subchondral bone of OA. This were consistent with the proteomics findings. We found through western blotting, RT‑PCR, and immunofluorescence that RhoA significantly increased the permeability of endothelial cells (ECs) by inhibiting inter‑EC adhesion proteins (zona occludens‑1, connexin 43 and Vascular endothelial‑Cadherin) and actin filaments. Furthermore, RhoA induced ferroptosis core proteins (glutathione peroxidase 4, solute carrier family 7 member 11 and acyl‑CoA synthase long‑chain family member 4, ACSL4) by influencing lipid peroxidation and mitochondrial function, leading to ferroptosis of ECs. This suggested an association between RhoA, ferroptosis and vascular permeability. Ferroptosis significantly increased permeability of ECs by inhibiting inter‑EC adhesion proteins. RhoA increased vascular permeability by inducing ferroptosis of ECs. In vivo, inhibition of RhoA and ferroptosis significantly mitigated progression of OA by alleviating cartilage degeneration and subchondral bone remodeling in mice with destabilization of the medial meniscus. In conclusion, the present findings indicated that RhoA enhanced vascular permeability in OA by inducing ferroptosis. This may serve as a novel strategy for the early prevention and treatment of OA.
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