Journal
AMERICAN JOURNAL OF PHYSIOLOGY-RENAL PHYSIOLOGY
Volume 291, Issue 5, Pages F923-F931Publisher
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajprenal.00192.2006
Keywords
epithelial Na+ channel; ROMK; cortical collecting duct; shear stress; SK channel
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Funding
- NIDDK NIH HHS [R37 DK051391, DK-038470, DK-051391] Funding Source: Medline
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Thiazide and loop diuretics induce renal K+ secretion, often leading to renal K+ wasting and hypokalemia. This phenomenon has been proposed to reflect an increase in delivery to and reabsorption of Na+ by the distal nephron, with a resultant increase in the driving force for passive K+ efflux across the apical membrane. Recent studies suggest that cellular mechanisms that lead to enhanced rates of Na+ reabsorption as well as K+ secretion in response to increases tubular flow rates are more complex. Increases in tubular flow rates directly enhance the activity of apical membrane Na+ channels and indirectly activate a class of K+ channels, referred to as maxi-K, that are functionally inactive under low flow states. This review addresses the role of biomechanical forces, generated by variations in urinary flow rate and tubular fluid volume, in the regulation of transepithelial Na+ and K+ transport in the distal nephron. The question of why the distal nephron has evolved to include a component of flow-dependent K+ secretion is also addressed.
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