1. Angiotensin II regulates δ-ENaC in human umbilical vein endothelial cells.
- Author
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Downs CA, Johnson NM, Coca C, and Helms MN
- Subjects
- Animals, Antioxidants pharmacology, Cells, Cultured, Electric Impedance, Epithelial Sodium Channels genetics, Epithelial Sodium Channels metabolism, Female, Half-Life, Human Umbilical Vein Endothelial Cells metabolism, Humans, Hydrogen Peroxide metabolism, Membrane Potentials drug effects, Oocytes, Oxidation-Reduction, Oxidative Stress drug effects, Ubiquitination, Up-Regulation, Xenopus, Angiotensin II pharmacology, Epithelial Sodium Channels drug effects, Human Umbilical Vein Endothelial Cells drug effects
- Abstract
The amiloride-sensitive epithelial sodium channel (ENaC) has been characterized in a variety of non-epithelial tissues. In the current study we sought to understand the effect of angiotensin II on δ ENaC function using human umbilical vein endothelial cells (HUVECs). The δ ENaC subunit is found in humans, but notably absent in rat and most mouse epithelial tissues. In this study we report the presence of δ ENaC in HUVECS with a half-life of ~80min and a change in δ ENaC abundance when HUVECs were treated with angiotensin II. We also observed that angiotensin II increased apical membrane expression of δ ENaC and decreased protein ubiquitination. Equivalent short circuit current measurements showed angiotensin II increased δ ENaC ion transport in HUVEC cells. Treatment with the antioxidant apocynin attenuated angiotensin II mediated effects indicating an important role for angiotensin-derived H
2 O2 in δ ENaC subunit regulation. Whole cell recordings from oocytes injected with δβγ ENaC shows H2 O2 -sensitive current. These results suggest that δ ENaC subunits can make up functional channel in HUVEC cells that are regulated by angiotensin II in a redox-sensitive manner. The novel findings have significant implications for our understanding of the role of ENaC in vascular conditions in which oxidative stress occurs., (Copyright © 2017 Elsevier Inc. All rights reserved.)- Published
- 2018
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