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阻断激活素受体 IIB 通过非扩增激活素 A-ACVR2B-NOX4 轴途径来保护关节炎发病机制。

Blockade of Activin Receptor IIB Protects Arthritis Pathogenesis by Non-Amplification of Activin A-ACVR2B-NOX4 Axis Pathway.

机构信息

Department of Biological Sciences, Sungkyunkwan University, Suwon, 16419, Republic of Korea.

CIRNO, Sungkyunkwan University, Suwon, 16419, Republic of Korea.

出版信息

Adv Sci (Weinh). 2023 May;10(14):e2205161. doi: 10.1002/advs.202205161. Epub 2023 Mar 22.

DOI:10.1002/advs.202205161
PMID:36950748
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10190289/
Abstract

Although activin receptor IIB (ACVR2B) is emerging as a novel pathogenic receptor, its ligand and assembled components (or assembly) are totally unknown in the context of osteoarthritis (OA) pathogenesis. The present results suggest that upregulation of ACVR2B and its assembly could affect osteoarthritic cartilage destruction. It is shown that the ACVR2B ligand, activin A, regulates catabolic factor expression through ACVR2B in OA development. Activin A Tg mice (Col2a1-Inhba) exhibit enhanced cartilage destruction, whereas heterozygous activin A KO mice (Inhba ) show protection from cartilage destruction. In silico analysis suggests that the Activin A-ACVR2B axis is involved in Nox4-dependent ROS production. Activin A Tg:Nox4 KO (Col2a1-Inhba:Nox4 ) mice show inhibition of experimental OA pathogenesis. NOX4 directly binds to the C-terminal binding site on ACVR2B-ACVR1B and amplifies the pathogenic signal for cartilage destruction through SMAD2/3 signaling. Together, the findings reveal that the ACVR2B assembly, which comprises Activin A, ACVR2B, ACVR1B, Nox4, and AP-1-induced HIF-2α, accelerates OA development. Furthermore, it is shown that shRNA-mediated ACVR2B knockdown or trapping ligands of ACVR2B abrogate OA development by competitively disrupting the ACVR2B-Activin A interaction. These results suggest that the ACVR2B assembly is required to amplify osteoarthritic cartilage destruction and could be a potential therapeutic target in efforts to treat OA.

摘要

虽然激活素受体 IIB(ACVR2B)作为一种新的致病受体正在出现,但在骨关节炎(OA)发病机制中,其配体和组装成分(或组装)完全未知。本研究结果表明,ACVR2B 的上调及其组装可能会影响骨关节炎软骨的破坏。研究表明,ACVR2B 配体激活素 A 通过 ACVR2B 在 OA 发展中调节分解代谢因子的表达。激活素 A Tg 小鼠(Col2a1-Inhba)表现出增强的软骨破坏,而杂合激活素 A KO 小鼠(Inhba)显示出对软骨破坏的保护。计算机分析表明,激活素 A-ACVR2B 轴参与 Nox4 依赖性 ROS 产生。激活素 A Tg:Nox4 KO(Col2a1-Inhba:Nox4)小鼠显示出实验性 OA 发病机制的抑制。NOX4 直接与 ACVR2B-ACVR1B 的 C 端结合位点结合,并通过 SMAD2/3 信号放大破坏软骨的致病信号。总之,这些发现表明,包含激活素 A、ACVR2B、ACVR1B、Nox4 和 AP-1 诱导的 HIF-2α 的 ACVR2B 组装加速了 OA 的发展。此外,研究表明,shRNA 介导的 ACVR2B 敲低或捕获 ACVR2B 的配体通过竞争性破坏 ACVR2B-激活素 A 相互作用来阻止 OA 的发展。这些结果表明,ACVR2B 组装对于放大骨关节炎软骨破坏是必需的,并且可能成为治疗 OA 的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/052a/10190289/5464d21efcf8/ADVS-10-2205161-g002.jpg
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