Oxidant stress activates a non-selective cation channel responsible for membrane depolarization in calf vascular endothelial cells.
AUTOR(ES)
Koliwad, S K
RESUMO
1. In vascular endothelial cells, oxidant stress increases cell Na+ content and inhibits the agonist-stimulated influx of external Ca2+. Further, oxidant stress increases uptake of Ca2+ into otherwise quiescent endothelial cells. To determine the mechanism responsible for altered Na+ and Ca2+ homeostasis, the present study examined the effect of oxidant stress on ionic current and channel activity in calf pulmonary artery endothelial cells. 2. Voltage-clamped control cells had a zero-current potential of -60 mV. Incubation of cells with the oxidant tert-butylhydroperoxide (tBuOOH; 0.4 mM, 1 h) caused depolarization to -4 mV and activation of ionic current equally selective for Na+ and K+. 3. Cell-attached membrane patches made on tBuOOH-treated cells contained ion channels that had a bidirectional conductance of 30 pS and that were not present in patches from control cells. Inside-out patches excised from oxidant-treated cells showed the channel to be equally selective for Na+ and K+ and to allow inward Ca2+ current. 4. Oxidant-activated channels were observed to display two gating modalities that were further evident during analysis of single-channel open probability. Neither modality was significantly affected by altering internal [Ca2+] (1 microM-10 nM). 5. Activation of non-selective channels provides a possible mechanism by which oxidants may increase endothelial cell Na+ content. Channel permeability to Ca2+ may account in part for the elevation of cytosolic free [Ca2+] that occurs in oxidant-treated cells. 6. Channel activation is associated with membrane depolarization, a mechanism that may contribute to oxidant inhibition of the agonist-stimulated Ca2+ influx pathway.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1158754Documentos Relacionados
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