Abstract
A low-Na+, high-K+diet (LNaHK) is considered a healthier alternative to the “Western” high-Na+ diet. Because the mechanism for K+ secretion involves Na+ reabsorptive exchange for secreted K+ in the distal nephron, it is not understood how K+ is eliminated with such low Na+ intake. Animals on a LNaHK diet produce an alkaline load, high urinary flows, and markedly elevated plasma ANG II and aldosterone levels to maintain their K+ balance. Recent studies have revealed a potential mechanism involving the actions of alkalosis, urinary flow, elevated ANG II, and aldosterone on two types of K+ channels, renal outer medullary K+ and large-conductance K+ channels, located in principal and intercalated cells. Here, we review these recent advances.
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Cornelius, R. J., Wang, B., Wang-France, J., & Sansom, S. C. (2016, April 1). Maintaining K+ balance on the low-Na+, high-K+ diet. American Journal of Physiology - Renal Physiology. American Physiological Society. https://doi.org/10.1152/ajprenal.00330.2015
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