Literature DB >> 31906742

Targeting Rho-associated coiled-coil forming protein kinase (ROCK) in cardiovascular fibrosis and stiffening.

Brian Yu1, Nikola Sladojevic1, John E Blair1, James K Liao1.   

Abstract

Introduction: Pathological cardiac fibrosis, through excessive extracellular matrix protein deposition from fibroblasts and pro-fibrotic immune responses and vascular stiffening is associated with most forms of cardiovascular disease. Pathological cardiac fibrosis and stiffening can lead to heart failure and arrythmias and vascular stiffening may lead to hypertension. ROCK, a serine/threonine kinase downstream of the Rho-family of GTPases, may regulate many pro-fibrotic and pro-stiffening signaling pathways in numerous cell types.Areas covered: This article outlines the molecular mechanisms by which ROCK in fibroblasts, T helper cells, endothelial cells, vascular smooth muscle cells, and macrophages mediate fibrosis and stiffening. We speculate on how ROCK could be targeted to inhibit cardiovascular fibrosis and stiffening.Expert opinion: Critical gaps in knowledge must be addressed if ROCK inhibitors are to be used in the clinic. Numerous studies indicate that each ROCK isoform may play differential roles in regulating fibrosis and may have opposing roles in specific tissues. Future work needs to highlight the isoform- and tissue-specific contributions of ROCK in fibrosis, and how isoform-specific ROCK inhibitors in murine models and in clinical trials affect the pathophysiology of cardiac fibrosis and stiffening. This could progress knowledge regarding new treatments for heart failure, arrythmias and hypertension and the repair processes after myocardial infarction.

Entities:  

Keywords:  ROCK; Rho; arrhythmias; fibrosis; heart failure; myocardial infarction; vascular stiffness

Year:  2020        PMID: 31906742      PMCID: PMC7662835          DOI: 10.1080/14728222.2020.1712593

Source DB:  PubMed          Journal:  Expert Opin Ther Targets        ISSN: 1472-8222            Impact factor:   6.902


  132 in total

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Journal:  Arterioscler Thromb Vasc Biol       Date:  2015-08-27       Impact factor: 8.311

2.  Prognostic significance of myocardial fibrosis in hypertrophic cardiomyopathy.

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Journal:  J Am Coll Cardiol       Date:  2010-06-25       Impact factor: 24.094

3.  Rad GTPase inhibits cardiac fibrosis through connective tissue growth factor.

Authors:  Ji Zhang; Lin Chang; Chunlei Chen; Meiling Zhang; Yan Luo; Milton Hamblin; Luis Villacorta; Jing-Wei Xiong; Y Eugene Chen; Jifeng Zhang; Xiaojun Zhu
Journal:  Cardiovasc Res       Date:  2011-03-07       Impact factor: 10.787

4.  Ligation of protease-activated receptor 1 enhances alpha(v)beta6 integrin-dependent TGF-beta activation and promotes acute lung injury.

Authors:  R Gisli Jenkins; Xiao Su; George Su; Christopher J Scotton; Eric Camerer; Geoffrey J Laurent; George E Davis; Rachel C Chambers; Michael A Matthay; Dean Sheppard
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Review 5.  Targeting Interleukin-6 Signaling in Clinic.

Authors:  Sujin Kang; Toshio Tanaka; Masashi Narazaki; Tadamitsu Kishimoto
Journal:  Immunity       Date:  2019-04-16       Impact factor: 31.745

6.  Membrane ERα attenuates myocardial fibrosis via RhoA/ROCK-mediated actin remodeling in ovariectomized female infarcted rats.

Authors:  Tsung-Ming Lee; Shinn-Zong Lin; Nen-Chung Chang
Journal:  J Mol Med (Berl)       Date:  2013-11-29       Impact factor: 4.599

7.  Inhibition of Rho-kinase leads to rapid activation of phosphatidylinositol 3-kinase/protein kinase Akt and cardiovascular protection.

Authors:  Sebastian Wolfrum; Andreas Dendorfer; Yoshiyuki Rikitake; Timothy J Stalker; Yulan Gong; Rosario Scalia; Peter Dominiak; James K Liao
Journal:  Arterioscler Thromb Vasc Biol       Date:  2004-08-19       Impact factor: 8.311

8.  Safety and efficacy of fasudil monotherapy and fasudil-ozagrel combination therapy in patients with subarachnoid hemorrhage: sub-analysis of the post-marketing surveillance study.

Authors:  Yoshio Suzuki; Masato Shibuya; Shin-ichi Satoh; Hirotoshi Sugiyama; Minoru Seto; Kintomo Takakura
Journal:  Neurol Med Chir (Tokyo)       Date:  2008-06       Impact factor: 1.742

9.  Disruption of ROCK1 gene attenuates cardiac dilation and improves contractile function in pathological cardiac hypertrophy.

Authors:  Jianjian Shi; Yi-Wei Zhang; Lelia J Summers; Gerald W Dorn; Lei Wei
Journal:  J Mol Cell Cardiol       Date:  2007-12-08       Impact factor: 5.000

10.  Regulation of the Hippo-YAP pathway by G-protein-coupled receptor signaling.

Authors:  Fa-Xing Yu; Bin Zhao; Nattapon Panupinthu; Jenna L Jewell; Ian Lian; Lloyd H Wang; Jiagang Zhao; Haixin Yuan; Karen Tumaneng; Hairi Li; Xiang-Dong Fu; Gordon B Mills; Kun-Liang Guan
Journal:  Cell       Date:  2012-08-02       Impact factor: 41.582
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  8 in total

1.  Intracellular Redistribution of Left Ventricular Connexin 43 Contributes to the Remodeling of Electrical Properties of the Heart in Insulin-resistant Elderly Rats.

Authors:  Deniz Billur; Yusuf Olgar; Belma Turan
Journal:  J Histochem Cytochem       Date:  2022-05-24       Impact factor: 4.137

Review 2.  Fibrotic Signaling in Cardiac Fibroblasts and Vascular Smooth Muscle Cells: The Dual Roles of Fibrosis in HFpEF and CAD.

Authors:  Julian C Bachmann; Simon J Baumgart; Anna K Uryga; Markus H Bosteen; Giulia Borghetti; Michael Nyberg; Kate M Herum
Journal:  Cells       Date:  2022-05-17       Impact factor: 7.666

3.  Insulin-like growth factor-1 directly affects cardiac cellular remodelling via distinct pathways.

Authors:  Kevin W Huang; Ian H Wang; Ping Fu; Henry Krum; Leon A Bach; Bing H Wang
Journal:  Int J Cardiol Heart Vasc       Date:  2021-08-02

4.  Reverse Remodeling in Human Heart Failure after Cardiac Resynchronization Therapy Is Associated With Reduced RHO-Kinase Activation.

Authors:  Maria Paz Ocaranza; Jorge E Jalil; Rodrigo Altamirano; Ana de León; Jackeline Moya; Alejandra Lonis; Luigi Gabrielli; Paul Mac Nab; Samuel Córdova; Alejandro Paredes; Ismael Vergara; Alex Bittner; Karime Sabat; Karla Pastorini
Journal:  Front Pharmacol       Date:  2021-04-23       Impact factor: 5.810

5.  Vascular Stiffening Mediated by Rho-Associated Coiled-Coil Containing Kinase Isoforms.

Authors:  Yuxin Li; Haw-Chih Tai; Nikola Sladojevic; Hyung-Hwan Kim; James K Liao
Journal:  J Am Heart Assoc       Date:  2021-10-06       Impact factor: 5.501

6.  Involvement of Rho-Associated Coiled-Coil Containing Kinase (ROCK) in BCR-ABL1 Tyrosine Kinase Inhibitor Cardiovascular Toxicity.

Authors:  Brian Yu; Afaf E G Osman; Nikola Sladojevic; Nicole Prabhu; Haw-Chih Tai; Daiqing Chen; Gerardo Perla; Linus Park; Richard A Larson; James K Liao
Journal:  JACC CardioOncol       Date:  2022-09-20

Review 7.  ROCK Inhibition as Potential Target for Treatment of Pulmonary Hypertension.

Authors:  Tadeu L Montagnoli; Jaqueline S da Silva; Susumu Z Sudo; Aimeé D Santos; Gabriel F Gomide; Mauro P L de Sá; Gisele Zapata-Sudo
Journal:  Cells       Date:  2021-06-30       Impact factor: 7.666

Review 8.  Rho Kinases in Embryonic Development and Stem Cell Research.

Authors:  Jianjian Shi; Lei Wei
Journal:  Arch Immunol Ther Exp (Warsz)       Date:  2022-01-19       Impact factor: 4.291
  8 in total

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