Your search keyword '"Lopez-Lopez, Jose Ramon"' showing total 1 results

1. MaxiK potassium channels in the function of chemoreceptor cells of the rat carotid body.

Author

Gomez-Niño, Angela, Obeso, Ana, Baranda, Jose Antonio, Santo-Domingo, Jaime, Lopez-Lopez, Jose Ramon, and Gonzalez, Constancio

Subjects

POTASSIUM channels, LABORATORY rats, CAROTID body, HYPOXEMIA, CHEMORECEPTORS, CELLS

Abstract

Hypoxia activates chemoreceptor cells of the carotid body (CB) promoting an increase in their normoxic release of neurotransmitters. Catecholamine (CA) release rate parallels the intensity of hypoxia. Coupling of hypoxia to CA release requires cell depolarization, produced by inhibition of O2-regulated K+ channels, and Ca2+ entering the cells via voltage-operated channels. In rat chemoreceptor cells hypoxia inhibits large-conductance, calcium-sensitive K channels (maxiK) and a two-pore domain weakly inward rectifying K+ channel (TWIK)-like acid-sensitive K+ channel (TASK)-like channel, but the significance of maxiK is controversial. A proposal envisions maxiK contributing to set the membrane potential (Em) and the hypoxic response, but the proposal is denied by authors finding that maxiK inhibition does not depolarize chemoreceptor cells or alters intracellular Ca2+ concentration or CA release in normoxia or hypoxia. We found that maxiK channel blockers (tetraethylammonium and iberiotoxin) did not modify CA release in rat chemoreceptor cells, in either normoxia or hypoxia, and iberiotoxin did not alter the Ca2+ transients elicited by hypoxia. On the contrary, both maxiK blockers increased the responses elicited by dinitrophenol, a stimulus we demonstrate does not affect maxiK channels in isolated patches of rat chemoreceptor cells. We conclude that in rat chemoreceptor cells maxiK channels do not contribute to the genesis of the Em, and that their full inhibition by hypoxia, preclude further inhibition by maxiK channel blockers. We suggest that full inhibition of this channel is required to generate the spiking behavior of the cells in acute hypoxia. [ABSTRACT FROM AUTHOR]

Published

2009