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Literature DB >> 17148943

Mechanisms controlling vascular tone in pulmonary arterial hypertension: implications for vasodilator therapy.

Angel Cogolludo¹, Laura Moreno, Eduardo Villamor.

Abstract

Pulmonary vasoconstriction is believed to be an early component of pulmonary arterial hypertension. Intracellular calcium concentration ([Ca(2+)](i)) is a major trigger for pulmonary vasoconstriction; however, it is now well known that contractions and relaxations may also be elicited through Ca(2+)-independent mechanisms. A variety of intracellular protein kinases and cyclic nucleotides have been identified as key determinants in controlling pulmonary vascular tone. Herein, we provide an overview of the main signaling pathways, which include protein kinase C, Rho kinases and cyclic nucleotides (cAMP and cGMP). This review also focuses on the role of store-operated Ca(2+) channels and voltage-gated K(+) channels, which are currently considered especially attractive in the pulmonary circulation and may represent new targets in the treatment of pulmonary arterial hypertension.

Entities: Chemical Disease

Mesh：

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Year: 2006 PMID： 17148943 DOI： 10.1159/000097754

Source DB: PubMed Journal: Pharmacology ISSN： 0031-7012 Impact factor: 2.547

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Cited

16 in total

1. Activation of K_v 7 channels as a novel mechanism for NO/cGMP-induced pulmonary vasodilation.

Authors: Gema Mondéjar-Parreño; Javier Moral-Sanz; Bianca Barreira; Alicia De la Cruz; Teresa Gonzalez; Maria Callejo; Sergio Esquivel-Ruiz; Daniel Morales-Cano; Laura Moreno; Carmen Valenzuela; Francisco Perez-Vizcaino; Angel Cogolludo
Journal: Br J Pharmacol Date: 2019-05-11 Impact factor: 8.739

Review 2. Cyclic nucleotide-dependent relaxation pathways in vascular smooth muscle.

Authors: Manuel Morgado; Elisa Cairrão; António José Santos-Silva; Ignacio Verde
Journal: Cell Mol Life Sci Date: 2011-09-27 Impact factor: 9.261

3. Colforsin-induced vasodilation in chronic hypoxic pulmonary hypertension in rats.

Authors: Ayumu Yokochi; Hiroo Itoh; Junko Maruyama; Erquan Zhang; Baohua Jiang; Yoshihide Mitani; Chikuma Hamada; Kazuo Maruyama
Journal: J Anesth Date: 2010-03-19 Impact factor: 2.078

4. Chronic hypoxia-induced upregulation of Ca2+-activated Cl- channel in pulmonary arterial myocytes: a mechanism contributing to enhanced vasoreactivity.

Authors: Hui Sun; Yang Xia; Omkar Paudel; Xiao-Ru Yang; James S K Sham
Journal: J Physiol Date: 2012-06-06 Impact factor: 5.182

5. PKCζ-NADPH Oxidase-PKCα Dependent Kv1.5 Phosphorylation by Endothelin-1 Modulates Nav1.5-NCX1-Cav1.2 Axis in Stimulating Ca²⁺ Level in Caveolae of Pulmonary Artery Smooth Muscle Cells.

Authors: Jaganmay Sarkar; Tapati Chakraborti; Pijush Kanti Pramanik; Priyanka Ghosh; Amritlal Mandal; Sajal Chakraborti
Journal: Cell Biochem Biophys Date: 2020-10-23 Impact factor: 2.194

Review 6. The pericyte: cellular regulator of microvascular blood flow.

Authors: Matthew E Kutcher; Ira M Herman
Journal: Microvasc Res Date: 2009-02-07 Impact factor: 3.514

7. NADPH oxidase 4 is expressed in pulmonary artery adventitia and contributes to hypertensive vascular remodeling.

Authors: Scott A Barman; Feng Chen; Yunchao Su; Christiana Dimitropoulou; Yusi Wang; John D Catravas; Weihong Han; Laszlo Orfi; Csaba Szantai-Kis; Gyorgy Keri; Istvan Szabadkai; Nektarios Barabutis; Olga Rafikova; Ruslan Rafikov; Stephen M Black; Danny Jonigk; Athanassios Giannis; Reto Asmis; David W Stepp; Ganesan Ramesh; David J R Fulton
Journal: Arterioscler Thromb Vasc Biol Date: 2014-06-19 Impact factor: 8.311