Rho kinase and Na+/H+ exchanger mediate endothelin‐1‐induced pulmonary arterial smooth muscle cell proliferation and migration

Rho kinase and Na+/H+ exchanger mediate endothelin‐1‐induced pulmonary arterial smooth muscle cell proliferation and migration

Excessive production of endothelin‐1 (ET‐1) has been observed in almost all forms of pulmonary hypertension. ET‐1, a highly potent vasoconstrictor, can also potentiate pulmonary arterial smooth muscle cell (PASMC) growth and migration, both of which contribute to the vascular remodeling that occurs...

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Bibliographic Details
Published in:Physiological reports Vol. 6; no. 9; pp. e13698 - n/a
Main Authors: Huetsch, John C., Walker, Jasmine, Undem, Clark, Lade, Julie, Yun, Xin, Baksh, Syeda, Jiang, Haiyang, Lai, Ning, Shimoda, Larissa A.
Format: Journal Article
Language:English
Published: United States John Wiley & Sons, Inc 01-05-2018
John Wiley and Sons Inc
Subjects:
Animals
Blood Pressure
Cell adhesion & migration
Cell migration
Cell Movement - drug effects
Cell proliferation
Cell Proliferation - drug effects
Endothelin
Endothelin-1 - administration & dosage
Endothelin-1 - metabolism
Endothelins
Homeostasis
Hydrogen
Hydrogen-Ion Concentration
Hypertension
Male
Membrane Physiology
Muscle, Smooth, Vascular - drug effects
Muscle, Smooth, Vascular - metabolism
Na+/H+-exchanging ATPase
Original Research
Physiology
Primary Cell Culture
pulmonary arterial smooth muscle
Pulmonary arteries
Pulmonary artery
Pulmonary Artery - drug effects
Pulmonary Artery - metabolism
Pulmonary hypertension
Rats, Wistar
Respiratory Conditions Disorder and Diseases
Rho kinase
Rho-associated kinase
rho-Associated Kinases - metabolism
Rodents
Smooth Muscle
Sodium-Hydrogen Exchangers - metabolism
sodium‐hydrogen exchanger
Endothelin
Rho kinase
pulmonary arterial smooth muscle
sodium-hydrogen exchanger
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Summary:Excessive production of endothelin‐1 (ET‐1) has been observed in almost all forms of pulmonary hypertension. ET‐1, a highly potent vasoconstrictor, can also potentiate pulmonary arterial smooth muscle cell (PASMC) growth and migration, both of which contribute to the vascular remodeling that occurs during the development of pulmonary hypertension. Increasing evidence indicates that alkalinization of intracellular pH (pHi), typically due to activation of Na+/H+ exchange (NHE), is associated with enhanced PASMC proliferation and migration. We recently demonstrated that application of exogenous ET‐1 increased NHE activity in murine PASMCs via a mechanism requiring Rho kinase (ROCK). However, whether ROCK and/or increased NHE activity mediate ET‐1‐induced migration and proliferation in PASMCs remains unknown. In this study, we used fluorescent microscopy in transiently cultured PASMCs from distal pulmonary arteries of the rat and the pH‐sensitive dye, BCECF‐AM, to measure changes in resting pHi and NHE activity induced by exposure to exogenous ET‐1 (10−8 mol/L) for 24 h. Cell migration and proliferation in response to ET‐1 were also measured using Transwell assays and BrdU incorporation, respectively. We found that application of exogenous ET‐1 had no effect on NHE1 expression, but increased pHi, NHE activity, migration, and proliferation in rat PASMCs. Pharmacologic inhibition of NHE or ROCK prevented the ET‐1‐induced changes in cell function (proliferation and migration). Our results indicate that ET‐1 modulates PASMC migration and proliferation via changes in pHi homeostasis through a pathway involving ROCK. Endothelin‐1 increased resting pH and sodium‐hydrogen exchange (NHE) activity in rat pulmonary arterial smooth muscle cells (PASMCs). Endothelin‐1 also increased PASMC proliferation and migration and these changes in PASMC function were dependent on NHE and Rho kinase activation.
Bibliography:This work was supported by National Heart, Lung, and Blood Institute grants HL 073859 and HL 084762 (to L.A. Shimoda) and HL 133475 (to J.C. Huetsch) as well as a K08 supplement grant from the Pulmonary Hypertension Association (to J.C. Huetsch).
Funding Information
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SourceType-Scholarly Journals-1
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ISSN:2051-817X
DOI:10.14814/phy2.13698