L. Rabinowitz scite author profile

The presently accepted regulators of the homeostatic excretion of potassium are the plasma concentrations of aldosterone and potassium. Evidence for a role of aldosterone is reviewed, and it is pointed out that aldosterone is kaliuretic at supraphysiologic levels but has little kaliuretic activity within its normal secretory range. Elevation of plasma potassium above its normal range enhances the kaliuretic action of aldosterone. Elevation of plasma potassium above, but not within, its normal range is strongly kaliuretic. In sheep the kaliuresis induced by intake of a potassium rich meal cannot be explained by changes in aldosterone or plasma potassium. A kaliuretic reflex arising from receptors in the gut, portal vein or liver has been proposed the explain the meal-induced kaliuresis. This putative reflex involves the central nervous system and efferent kaliuretic factors other than aldosterone and plasma potassium. Evidence for the involvement of the central nervous system and undetermined kaliuretic regulatory factors can be found in studies of the physiologic circadian rhythm of renal potassium excretion. This rhythmic excretion does not appear to depend on changes in either aldosterone or plasma potassium.

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Sodium-linked urea transport by the renal tubule of the spiny dogfish Squalus acanthias

Schmidt‐Nielsen

Truniger

Rabinowitz

1972

Comparative Biochemistry and Physiology Part A: Physiology

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Effects of high and low protein diets on sheep renal function and metabolism

Rabinowitz

Gunther

Shoji

et al. 1973

Kidney International

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Homeostatic potassium excretion in fed and fasted sheep

Rabinowitz

Green

Sarason

et al. 1988

American Journal of Physiology-Regulatory, Integrative and Comp

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In unanesthetized adult sheep, following intake of a daily meal, there was a peak in K excretion. The maximum and minimum rates of K excretion following meals were directly related to meal K content. On days without meals, no peak in K excretion occurred. Changes in K excretion on fed and fast days occurred without changes in the low levels of plasma aldosterone and were poorly correlated with urine or blood pH, urine flow rate, Na excretion, or the filtered load of K, but they correlated well with fractional K excretion. Plasma K did not change on fast days. Plasma K increased on some, but not all, fed days. Increases in plasma K that occurred on fed days were insufficient to account for the concurrent kaliuresis. Infusion of aldosterone or isotonic NaCl failed to alter K excretion in fed or fasted sheep. Infusion of isotonic NaCl + aldosterone hypertonic Na2SO4 + aldosterone increased K excretion in fasted but not fed sheep. Infusion of K in the rumen of fed and fasted sheep elevated rumen K concentration and led to increases in K excretion that could not be explained by increases in plasma K. The mechanisms responsible for the homeostatic changes in K excretion on fed and fast days were not ascertained but may importantly depend on sensors of enteric K content.

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L. Rabinowitz

An Integrated View of Potassium Homeostasis

Aldosterone and potassium homeostasis

Sodium-linked urea transport by the renal tubule of the spiny dogfish Squalus acanthias

Effects of high and low protein diets on sheep renal function and metabolism

Homeostatic potassium excretion in fed and fasted sheep

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