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Title: Regulation of intracellular free Ca2+ concentration in the outer segments of bovine retinal rods by Na-Ca-K exchange measured with fluo-3. II. Thermodynamic competence of transmembrane Na+ and K+ gradients and inactivation of Na(+)-dependent Ca2+ extrusion. Author: Schnetkamp PP, Basu DK, Li XB, Szerencsei RT. Journal: J Biol Chem; 1991 Dec 05; 266(34):22983-90. PubMed ID: 1744093. Abstract: Regulation of cytosolic free Ca2+ in the physiologically relevant submicromolar range was measured in isolated intact bovine rod outer segments (ROS) with the intracellular Ca(2+)-indicating dye fluo-3. Changes in free Ca2+ were compared with changes in total Ca2+ measured with 45Ca fluxes and a good qualitative correlation was observed. Ca2+ homeostasis in isolated bovine ROS was exclusively mediated via the Na-Ca-K exchanger. Free cytosolic Ca2+ concentration was lowered by an increase in the inward Na+ gradient, was raised by an increase in external K+, and was raised by depolarization of the plasma membrane. The simplest stoichiometry consistent with these qualitative observations is 4Na:(1Ca + 1K). The individual K:Ca, Na:Ca, and K:Na coupling ratios were deduced from quantitative changes in cytosolic free Ca2+ upon changes in the transmembrane Na+ and K+ gradients. The observed changes in free Ca2+ did not agree with changes in free Ca2+ calculated on the basis of the above fixed stoichiometry which may reflect the flexibility in the Ca:K coupling ratio observed before in flux experiments (Schnetkamp, P. P. M., Szerencsei, R. T., and Basu, D. K. (1991) J. Biol. Chem. 266, 198-206). The most dramatic discrepancy was observed for the Na:Ca coupling ratio: the expected very large changes in cytosolic free Ca2+ upon changes in the transmembrane Na+ gradient were not observed. Rapid Na(+)-induced Ca2+ extrusion was unable to lower cytosolic free Ca2+ below 100 nM, even under nonequilibrium conditions and despite the observation that Ca2+ influx via reverse Na-Ca-K exchange readily occurred at a free external Ca2+ concentration of 20 nM. We conclude that the Na(+)-dependent extrusion mode of the Na-Ca-K exchanger occurs in a brief (20-s) burst of high maximal velocity transport followed by a nearly complete inactivation of transport. The importance of our findings for Ca2+ homeostasis in functioning rod photoreceptors is discussed.[Abstract] [Full Text] [Related] [New Search]