The magnitude of K+ secretion in the cortical collecting duct (CCD) is determined by its electrochemical gradient and the permeability of the apical membrane to K+. Two apical K+-selective channels have been identified by patch clamp analysis of the fully differentiated CCD. Whereas the secretory K+ (SK) channel, encoded by ROMK, is considered to mediate baseline K+ secretion, the role of the stretch-/Ca2+-activated maxi-K channel, closed at the resting membrane potential, remains uncertain. Two observations suggest that channels other than ROMK contribute to urinary K+ secretion. First, patients with Bartter's syndrome due to loss-of-function mutations in ROMK have modest hypokalemia and not hyperkalemia, as might be expected in the absence of functional SK channels. Second, the developmental appearance of baseline net K+ secretion in the rabbit CCD precedes that of flow-stimulated K+ secretion. In fact, recent data from our lab suggests that flow-dependent K+ secretion is mediated by the maxi-K channel. We hypothesize that the differential expression of alternative spliced transcripts of the maxi-K channel, encoded by slo, that vary in Ca2+ and voltage sensitivity, or in coassembly with regulatory beta subunits, provides a mechanism for modulating flow-dependent K+ secretion in the CCD during normal renal development and the adaptation to disease. To test this, we propose to: (1) define the molecular identity of the renal maxi-K channel subunit isoforms, their functional characteristics, distribution and abundance in the maturing mammalian kidney, and (2) explore the mechanisms by which epigenetic factors, including dietary K+ intake and plasma K+ levels, circulating levels of adrenal corticosteroids and vasopressin regulate maxi-K channel expression and activity. A complementary approach of molecular and functional (in vitro microperfusion and patch clamp analysis) studies is planned. The results of this investigation have broad implications not only in terms of our understanding of the pathophysiology of disease (Bartter's), but also the ontogeny of renal tubular function. Additionally, this study sets the stage for future exploration of the role of biomechanical forces (e.g. flow), via activation of appropriate signal transduction cascades (e.g., Ca2+-associated), in regulation of gene expression as is necessary for normal tubular differentiation and adaptation to disease.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK038470-17
Application #
6776907
Study Section
Special Emphasis Panel (ZRG1-SMB (03))
Program Officer
Ketchum, Christian J
Project Start
1986-08-01
Project End
2006-05-31
Budget Start
2004-06-01
Budget End
2005-05-31
Support Year
17
Fiscal Year
2004
Total Cost
$348,008
Indirect Cost
Name
Mount Sinai School of Medicine
Department
Pediatrics
Type
Schools of Medicine
DUNS #
078861598
City
New York
State
NY
Country
United States
Zip Code
10029
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Carrisoza-Gaytán, Rolando; Wang, Lijun; Schreck, Carlos et al. (2017) The mechanosensitive BK?/?1 channel localizes to cilia of principal cells in rabbit cortical collecting duct (CCD). Am J Physiol Renal Physiol 312:F143-F156
Nizar, Jonathan M; Dong, Wuxing; McClellan, Robert B et al. (2016) Na+-sensitive elevation in blood pressure is ENaC independent in diet-induced obesity and insulin resistance. Am J Physiol Renal Physiol 310:F812-20
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Kharade, Sujay V; Flores, Daniel; Lindsley, Craig W et al. (2016) ROMK inhibitor actions in the nephron probed with diuretics. Am J Physiol Renal Physiol 310:F732-F737
Carrisoza-Gaytan, Rolando; Carattino, Marcelo D; Kleyman, Thomas R et al. (2016) An unexpected journey: conceptual evolution of mechanoregulated potassium transport in the distal nephron. Am J Physiol Cell Physiol 310:C243-59
Carrisoza-Gaytan, Rolando; Liu, Yu; Flores, Daniel et al. (2014) Effects of biomechanical forces on signaling in the cortical collecting duct (CCD). Am J Physiol Renal Physiol 307:F195-204

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