Release of kaliuretic peptide during immersion-induced central hypervolemia in healthy humans.

Kaliuretic peptide, a new peptide hormone consisting of amino acids 79-98 of the 126 amino acid atrial natriuretic factor (ANF) prohormone, is synthesized in the heart and is a potent stimulator of potassium excretion. The mechanism(s) controlling the release of kaliuretic peptide heretofore has not been defined. Because water immersion to the neck provides an acute central volume expansion identical to that produced by 2 liters of saline but without the plasma compositional change, immersion to the neck (NI) was utilized to assess kaliuretic peptide responses to acute central blood volume expansion in seven seated sodium-replete normal subjects. Since atrial natriuretic factor (ANF; amino acids 99-126 of the prohormone) originates from the amino acids adjacent to kaliuretic peptide in the ANF prohormone but is proteolytically cleaved from the rest of the prohormone before release, measurement of ANF was incorporated into this study to determine if there are differences with respect to release of these two portions of the ANF prohormone. Both kaliuretic peptide and ANF increased promptly with NI, with ANF peaking at 1 hr of immersion, whereas kaliuretic peptide peaked at the 3rd hr of immersion. With cessation of immersion, ANF decreased to preimmersion levels within 0.5 hr while kaliuretic peptide was still significantly (P < 0.05) elevated at 1 hr postimmersion. These findings indicate that kaliuretic peptide and ANF are released simultaneously but that kaliuretic peptide peak circulating concentration and its return to preimmersion values are prolonged compared with ANF. These last findings suggest a slower clearance from the circulation for kaliuretic peptide. The diuretic peak response to NI corresponded in a temporal manner to the peak circulating concentration of kaliuretic peptide, suggesting a possible physiologic role for kaliuretic peptide in modulating volume homeostasis in humans.