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Coupled ATP and potassium efflux from intercalated cells
Author(s) -
J. David Holtzclaw,
Ryan J. Cornelius,
Lori Hatcher,
Steven C. Sansom
Publication year - 2011
Publication title -
american journal of physiology. renal physiology./american journal of physiology. renal physiology
Language(s) - English
Resource type - Journals
eISSN - 1931-857X
pISSN - 1522-1466
DOI - 10.1152/ajprenal.00112.2011
Subject(s) - purinergic receptor , efflux , suramin , secretion , chemistry , potassium channel , endocrinology , medicine , microbiology and biotechnology , biophysics , biology , receptor , biochemistry
Increased flow in the distal nephron induces K secretion through the large-conductance, calcium-activated K channel (BK), which is primarily expressed in intercalated cells (IC). Since flow also increases ATP release from IC, we hypothesized that purinergic signaling has a role in shear stress (τ; 10 dynes/cm(2)) -induced, BK-dependent, K efflux. We found that 10 μM ATP led to increased IC Ca concentration, which was significantly reduced in the presence of the P(2) receptor blocker suramin or calcium-free buffer. ATP also produced BK-dependent K efflux, and IC volume decrease. Suramin inhibited τ-induced K efflux, suggesting that K efflux is at least partially dependent on purinergic signaling. BK-β4 small interfering (si) RNA, but not nontarget siRNA, decreased ATP secretion and both ATP-dependent and τ-induced K efflux. Similarly, carbenoxolone (25 μM), which blocks connexins, putative ATP pathways, blocked τ-induced K efflux and ATP secretion. Compared with BK-β4(-/-) mice, wild-type mice with high distal flows exhibited significantly more urinary ATP excretion. These data demonstrate coupled electrochemical efflux between K and ATP as part of the mechanism for τ-induced ATP release in IC.

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