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本文引用的文献

1
ROK and Arteriolar Myogenic Tone Generation: Molecular Evidence in Health and Disease.肾素-血管紧张素-醛固酮系统与小动脉肌源性张力的产生:健康与疾病中的分子证据
Front Pharmacol. 2017 Feb 23;8:87. doi: 10.3389/fphar.2017.00087. eCollection 2017.
2
Blood pressure-associated polymorphism controls ARHGAP42 expression via serum response factor DNA binding.血压相关多态性通过血清反应因子DNA结合控制ARHGAP42表达。
J Clin Invest. 2017 Feb 1;127(2):670-680. doi: 10.1172/JCI88899. Epub 2017 Jan 23.
3
Genome-Wide Gene-Sodium Interaction Analyses on Blood Pressure: The Genetic Epidemiology Network of Salt-Sensitivity Study.血压的全基因组基因-钠相互作用分析:盐敏感性研究的遗传流行病学网络
Hypertension. 2016 Aug;68(2):348-55. doi: 10.1161/HYPERTENSIONAHA.115.06765. Epub 2016 Jun 6.
4
Trans-ancestry genome-wide association study identifies 12 genetic loci influencing blood pressure and implicates a role for DNA methylation.跨祖先全基因组关联研究确定了12个影响血压的基因位点,并表明DNA甲基化发挥了作用。
Nat Genet. 2015 Nov;47(11):1282-1293. doi: 10.1038/ng.3405. Epub 2015 Sep 21.
5
Cellular Levels of Signaling Factors Are Sensed by β-actin Alleles to Modulate Transcriptional Pulse Intensity.β-肌动蛋白等位基因可感知信号因子的细胞水平,以调节转录脉冲强度。
Cell Rep. 2015 Apr 21;11(3):419-32. doi: 10.1016/j.celrep.2015.03.039. Epub 2015 Apr 9.
6
Cytoskeletal reorganization evoked by Rho-associated kinase- and protein kinase C-catalyzed phosphorylation of cofilin and heat shock protein 27, respectively, contributes to myogenic constriction of rat cerebral arteries.分别由 Rho 相关激酶和蛋白激酶 C 催化的丝切蛋白和热休克蛋白 27 的磷酸化所引起的细胞骨架重排,有助于大鼠大脑血管的肌源性收缩。
J Biol Chem. 2014 Jul 25;289(30):20939-52. doi: 10.1074/jbc.M114.553743.
7
Nuclear RhoA signaling regulates MRTF-dependent SMC-specific transcription.细胞核RhoA信号传导调节MRTF依赖的平滑肌细胞特异性转录。
Am J Physiol Heart Circ Physiol. 2014 Aug 1;307(3):H379-90. doi: 10.1152/ajpheart.01002.2013. Epub 2014 Jun 6.
8
The core and conserved role of MAL is homeostatic regulation of actin levels.MAL 的核心和保守作用是肌动蛋白水平的动态平衡调节。
Genes Dev. 2014 May 15;28(10):1048-53. doi: 10.1101/gad.237743.114.
9
Rho-actin signaling to the MRTF coactivators dominates the immediate transcriptional response to serum in fibroblasts.Rho-肌动蛋白信号传导至MRTF共激活因子在成纤维细胞中主导了对血清的即时转录反应。
Genes Dev. 2014 May 1;28(9):943-58. doi: 10.1101/gad.239327.114. Epub 2014 Apr 14.
10
The smooth muscle-selective RhoGAP GRAF3 is a critical regulator of vascular tone and hypertension.平滑肌选择性 RhoGAP GRAF3 是血管张力和高血压的关键调节因子。
Nat Commun. 2013;4:2910. doi: 10.1038/ncomms3910.

GRAF3 作为一个血容量敏感变阻器,控制平滑肌的收缩性和血压。

GRAF3 serves as a blood volume-sensitive rheostat to control smooth muscle contractility and blood pressure.

机构信息

Department of Pathology, University of North Carolina, Chapel Hill, NC, USA.

McAllister Heart Institute, University of North Carolina, Chapel Hill, NC, USA.

出版信息

Small GTPases. 2020 May;11(3):194-203. doi: 10.1080/21541248.2017.1375602. Epub 2018 Jan 7.

DOI:10.1080/21541248.2017.1375602
PMID:29099324
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7549679/
Abstract

Vascular resistance is a major determinant of BP and is controlled, in large part, by RhoA-dependent smooth muscle cell (SMC) contraction within small peripheral arterioles and previous studies from our lab indicate that GRAF3 is a critical regulator of RhoA in vascular SMC. The elevated contractile responses we observed in GRAF3 deficient vessels coupled with the hypertensive phenotype provided a mechanistic link for the hypertensive locus recently identified within the GRAF3 gene. On the basis of our previous findings that the RhoA signaling axis also controls SMC contractile gene expression and that GRAF3 expression was itself controlled by this pathway, we postulated that GRAF3 serves as an important counter-regulator of SMC phenotype. Indeed, our new findings presented herein indicate that GRAF3 expression acts as a pressure-sensitive rheostat to control vessel tone by both reducing calcium sensitivity and restraining expression of the SMC-specific contractile proteins that support this function. Collectively, these studies highlight the potential therapeutic value of GRAF3 in the control of human hypertension.

摘要

血管阻力是血压的主要决定因素,在很大程度上受到小外周动脉中 RhoA 依赖性平滑肌细胞 (SMC) 收缩的控制,我们实验室之前的研究表明,GRAF3 是血管 SMC 中 RhoA 的关键调节因子。我们在 GRAF3 缺陷血管中观察到的升高的收缩反应,加上高血压表型,为最近在 GRAF3 基因内鉴定的高血压基因座提供了一个机制联系。基于我们之前的发现,即 RhoA 信号轴也控制 SMC 收缩基因表达,并且 GRAF3 表达本身受该途径控制,我们假设 GRAF3 作为 SMC 表型的重要反向调节剂。事实上,我们在此提出的新发现表明,GRAF3 表达作为一种压力敏感变阻器,通过降低钙敏感性和抑制支持这种功能的 SMC 特异性收缩蛋白的表达来控制血管张力。总的来说,这些研究强调了 GRAF3 在控制人类高血压方面的潜在治疗价值。