Metabolic inhibition reduces cardiac L-type Ca2+ channel current due to acidification caused by ATP hydrolysis-Reference-Cited by-同舟云学术

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Metabolic inhibition reduces cardiac L-type Ca2+ channel current due to acidification caused by ATP hydrolysis

Published:2017-08-31 Issue:8 Volume:12 Page:e0184246
ISSN:1932-6203
Container-title:PLOS ONE
language:en
Short-container-title:PLoS ONE

Author:

Kanaporis Giedrius,Treinys Rimantas,Fischmeister Rodolphe^ORCID,Jurevičius Jonas

Funder

Research Council of Lithuania

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

Reference58 articles.

1. Modulation of electron transport protects cardiac mitochondria and decreases myocardial injury during ischemia and reperfusion;Q Chen;Am J Physiol Cell Physiol,2007

2. Altered cardiac sarcoplasmic reticulum function of intact myocytes of rat ventricle during metabolic inhibition;CL Overend;Circ Res,2001

3. Effects of mitochondrial uncoupling on Ca²⁺ signaling during excitation-contraction coupling in atrial myocytes;AV Zima;Am J Physiol Heart Circ Physiol,2013

4. Metabolic inhibition alters subcellular calcium release patterns in rat ventricular myocytes: implications for defective excitation-contraction coupling during cardiac ischemia and failure;GH Fukumoto;Circ Res,2005

5. Mitochondrial uncoupling downregulates calsequestrin expression and reduces SR Ca²⁺ stores in cardiomyocytes;SL Hanninen;Cardiovasc Res,2010

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3. Loss of zebrafish atp6v1e1b, encoding a subunit of vacuolar ATPase, recapitulates human ARCL type 2C syndrome and identifies multiple pathobiological signatures;PLOS Genetics;2021-06-18

4. Effects of Hypoxia and Acidosis on Cardiac Electrophysiology and Hemodynamics. Is NHE-Inhibition by Cariporide Still Advantageous?;Frontiers in Physiology;2020-03-19

5. Metabolic Inhibition Induces Transient Increase of L-type Ca2+ Current in Human and Rat Cardiac Myocytes;International Journal of Molecular Sciences;2019-03-26

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