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AJP - Renal Physiology, Vol 273, Issue 2 193-F199, Copyright © 1997 by American Physiological Society
ARTICLES |
H. Singh and S. L. Linas
University of Colorado, Health Sciences Center, Denver 80262, USA.
Renal sodium excretion is regulated by the adrenergic system. We recently demonstrated the presence of functional beta 2-adrenoceptors (beta 2-AR) in cultured rat proximal tubule epithelial cells beta 2-AR activation resulted in increases in Na-K-adenosinetriphosphatase (Na-K-ATPase) activity and transcellular sodium transport as a consequence of increased apical sodium entry. The purpose of this study was to determine the role of protein kinase C (PKC) on beta 2-AR-dependent increases in Na-K-ATPase activity and sodium transport in proximal tubules. To determine the effect of PKC on basal function, cultured rat proximal tubule cells were exposed to phorbol 12-myristate 13-acetate (PMA). PMA increased apical Na entry (+/-80%), decreased Na-K-ATPase activity (+/-25%), and prevented increases in Na-K-ATPase activity after sodium entry facilitation with monensin. Decreases in Na-K-ATPase activity were associated with decreases in sodium transport (+/-30%). To determine whether beta 2-AR function was transduced by PKC, PKC activity was measured in cells exposed to the selective beta 2-AR agonist metaproterenol. Metaproterenol caused increases in PKC activity, which were blocked by a beta 2-AR but not by a beta 1-AR-receptor antagonist. beta 2-AR-dependent increases in apical Na entry, Na-K-ATPase activity, and sodium transport were blocked by calphostin C or staurosporine. To determine whether PKC had additional effects on beta 2-AR function, cells were exposed to metaproterenol and PMA. Metaproterenol-induced increases in Na-K-ATPase activity and sodium transport were blocked by PMA. In conclusion, beta 2-AR-mediated increases in Na-K-ATPase activity and sodium flux are transduced by PKC acting through increases in apical Na entry. However, activation of PKC by phorbol esters inhibits beta 2-AR-dependent increases in Na-K-ATPase activity and sodium transport.
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