11S蛋白酶体激活剂REGγ通过抑制RBM3(RNA结合基序蛋白3)途径促进主动脉夹层形成。
11S Proteasome Activator REGγ Promotes Aortic Dissection by Inhibiting RBM3 (RNA Binding Motif Protein 3) Pathway.
作者信息
Xie Yifan, Gao Rifeng, Gao Yang, Dong Zheng, Ge Junbo
机构信息
Department of Cardiology, Zhongshan Hospital, Fudan University, Shanghai, China (Y.X., R.G., Y.G., Z.D., J.G.).
Shanghai Institute of Cardiovascular Diseases' Shanghai' China (Y.X., R.G., Y.G., Z.D., J.G.).
出版信息
Hypertension. 2023 Jan;80(1):125-137. doi: 10.1161/HYPERTENSIONAHA.122.19618. Epub 2022 Nov 4.
BACKGROUND
Aortic dissection (AD) is a life-threatening cardiovascular disorder with high mortality and lacking underlying mechanisms or effective treatments. REGγ, the 11S proteasome activator known to promote the degradation of cellular proteins in a ubiquitin- and ATP-independent manner, emerges as a new regulator in the cardiovascular system.
METHODS
Using β-aminopropionitrile (BAPN)-subjected REGγ knockout AD mice and Ang II (angiotensin II)-treated REGγ deficiency vascular smooth muscle cells (VSMCs) to explore the effect of REGγ in AD progression.
RESULTS
REGγ was upregulated in mouse aorta of β-aminopropionitrile-induced AD model in vivo and Ang II-treated VSMCs in vitro. REGγ deficiency ameliorated AD progression in β-aminopropionitrile-induced mice by protecting against the switch in VSMCs from contractile to synthetic phenotype through suppressing RBM3 (RNA-binding motif protein 3) decay. Mechanically, REGγ interacted with and degraded the RNA-binding protein RBM3 directly, leading to decreased mRNA stability, lowered expression and transcriptional activity of transcription factor SRF (serum response factor), subsequently reduced transcription of VSMCs-specific contractile genes, α-SMA (alpha-smooth muscle actin) and SM22α (smooth muscle 22 alpha), caused the switch in VSMCs from contractile to synthetic phenotype and associated AD progression. Ablation of endogenous SRF or RBM3, or overexpressing exogenous RBM3 in VSMCs significantly blocked or reestablished the REGγ-dependent action on VSMCs phenotypic switch of Ang II stimulation in vitro. Furthermore, exogenously introducing RBM3 improved the switch in VSMCs from contractile to synthetic phenotype and associated AD features caused by REGγ in vivo.
CONCLUSIONS
Our results demonstrated that REGγ promoted the switch in VSMCs from contractile to synthetic phenotype and AD progression by inhibiting RBM3-SRF pathway, indicated that modulating REGγ-proteasome activity may be a potential therapeutic approach for AD-associated cardiovascular dysfunction.
背景
主动脉夹层(AD)是一种危及生命的心血管疾病,死亡率高,且缺乏潜在机制或有效治疗方法。REGγ是一种11S蛋白酶体激活剂,已知其以不依赖泛素和ATP的方式促进细胞蛋白降解,已成为心血管系统中的一种新调节因子。
方法
使用经β-氨基丙腈(BAPN)处理的REGγ基因敲除AD小鼠和经血管紧张素II(Ang II)处理的REGγ缺陷血管平滑肌细胞(VSMCs)来探究REGγ在AD进展中的作用。
结果
REGγ在体内β-氨基丙腈诱导的AD模型小鼠主动脉以及体外Ang II处理的VSMCs中表达上调。REGγ缺陷通过抑制RNA结合基序蛋白3(RBM3)降解,防止VSMCs从收缩表型转变为合成表型,从而改善了β-氨基丙腈诱导小鼠的AD进展。机制上,REGγ直接与RNA结合蛋白RBM3相互作用并使其降解,导致mRNA稳定性降低、转录因子血清反应因子(SRF)的表达和转录活性降低,随后VSMCs特异性收缩基因α-平滑肌肌动蛋白(α-SMA)和22α平滑肌蛋白(SM22α)的转录减少,导致VSMCs从收缩表型转变为合成表型,并与AD进展相关。在VSMCs中敲除内源性SRF或RBM3,或过表达外源性RBM3,可显著阻断或重新建立REGγ对体外Ang II刺激的VSMCs表型转换的依赖性作用。此外,外源性引入RBM3可改善体内由REGγ引起的VSMCs从收缩表型到合成表型的转换及相关AD特征。
结论
我们的结果表明,REGγ通过抑制RBM3-SRF途径促进VSMCs从收缩表型转变为合成表型及AD进展,表明调节REGγ-蛋白酶体活性可能是治疗AD相关心血管功能障碍的一种潜在治疗方法。
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