Author:
Najjar Fadi,Zhou Hao,Morimoto Tetsuji,Bruns James B.,Li Hai-Sheng,Liu Wen,Kleyman Thomas R.,Satlin Lisa M.
Abstract
The cortical collecting duct (CCD) is a final site for regulation of K+homeostasis. CCD K+secretion is determined by the electrochemical gradient and apical permeability to K+. Conducting secretory K+(SK/ROMK) and maxi-K channels are present in the apical membrane of the CCD, the former in principal cells and the latter in both principal and intercalated cells. Whereas SK channels mediate baseline K+secretion, maxi-K channels appear to participate in flow-stimulated K+secretion. Chronic dietary K+loading enhances the CCD K+secretory capacity due, in part, to an increase in SK channel density (Palmer et al., J Gen Physiol 104: 693–710, 1994). Long-term exposure of Ambystoma tigrinum to elevated K+increases renal K+excretion due to an increase in apical maxi-K channel density in their CDs (Stoner and Viggiano, J Membr Biol 162: 107–116, 1998). The purpose of the present study was to test whether K+adaptation in the mammalian CCD is associated with upregulation of maxi-K channel expression. New Zealand White rabbits were fed a low (LK), control (CK), or high (HK) K+diet for 10–14 days. Real-time PCR quantitation of message encoding maxi-K α- and β2–4-subunits in single CCDs from HK animals was greater than that detected in CK and LK animals ( P < 0.05); β1-subunit was not detected in any CCD sample but was present in whole kidney. Indirect immunofluorescence microscopy revealed a predominantly intracellular distribution of α-subunits in LK kidneys. In contrast, robust apical labeling was detected primarily in α-intercalated cells in HK kidneys. In summary, K+adaptation is associated with an increase in steady-state abundance of maxi-K channel subunit-specific mRNAs and immunodetectable apical α-subunit, the latter observation consistent with redistribution from an intracellular pool to the plasma membrane.
Publisher
American Physiological Society
Cited by
103 articles.
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