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Citation Information: J Clin Invest. 1990;86(6):1799-1805. https://doi.org/10.1172/JCI114909.
Abstract
Agonist occupancy of the cloned human serotonin (5-HT)1A receptor expressed in HeLa cells stimulates Na+/K+ ATPase activity as assessed by rubidium uptake. The purpose of the study was to determine which of the receptor-associated signaling mechanisms was responsible for this effect. 5-HT stimulated Na+/K+ ATPase 38% at 2 mM extracellular potassium, an effect characterized by a decrease in apparent K0.5 from 2.8 +/- 0.3 to 1.8 +/- 0.3 mM potassium without a significant change in apparent Vmax. The EC50 for the transport effect was approximately 3 microM 5-HT. The response was pertussis toxin-sensitive but did not involve inhibition of adenylate cyclase, as stimulation of Na+/K+ ATPase by 5-HT was observed in the presence of excess dibutyryl cAMP. Protein kinase C was not required for the response since short-term incubation with the phorbol esters phorbol 12 myristate, 13 acetate (PMA) and phorbol 12,13-dibutyrate (PDBu) did not mimic the 5-HT effect. Moreover, 5-HT increased Na+/K+ ATPase activity after inactivation of protein kinase C by overnight incubation with PMA. 5-HT and the sesquiterpene lactone thapsigargin increased cytosolic calcium in this cell model, and the EC50 for 5-HT corresponded with that for stimulation of Na+/K+ ATPase. Both thapsigargin and A23187, a calcium ionophore, also increased Na+/K+ ATPase activity in a dose-responsive fashion. The response to 5-HT, thapsigargin, and A23187 was blocked by conditions that removed the cytosolic calcium response. By two-dimensional gel electrophoresis, we established evidence for a calcium-sensitive but protein kinase C-independent signaling pathway. We conclude that the 5-HT1A receptor, which we have previously shown to stimulate phosphate uptake via protein kinase C, stimulates Na+/K+ ATPase via a calcium-dependent mechanism. This provides evidence for regulation of two separate transport processes by a single receptor subtype via different signaling mechanisms.
Authors
J P Middleton, J R Raymond, A R Whorton, V W Dennis
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