| Abstract: | An essential function of C-cells is to monitor extracellular Ca2+ concentration ([Ca2+]e) and to respond to changes in [Ca2+]e by regulating hormone secretion. Using the calcitonin-secreting rat C-cell line rMTC 44-2, we have investigated a possible tight linkage between [Ca2+]e and cytosolic free Ca2+ ([Ca/+]i). We have demonstrated, using the Ca2+ indicator Quin 2, that the [Ca2+]i is particularly sensitive to changes in [Ca2+]e. Sequential increases in [Ca2+]e as small as 0.1 mM evoke clear elevations in [Ca2+]i. In contrast, other cell types tested did not alter their [Ca2+]i in response to increasing [Ca2+]e even to levels as high as 4.0 mM. Sequential 1.0 mM increments in [Ca2+]e caused the [Ca2+]i to rise from a base line of 357 +/- 20 nM Ca2+i at 1.0 mM Ca2+e to a maximum of 1066 +/- 149 nM Ca2+i at 5.0 mM Ca2+e. [Ca2+]e above 2.0 mM produced a biphasic response in [Ca2+]i consisting of an immediate (less than 5 s) spike followed by a decay to a new plateau. Treatment of rMTC 44-2 cells with either 50 mM K+ or 100 nM ionomycin at 1.0 mM Ca2+e caused an immediate spike in [Ca2+]i to micromolar levels. Pretreatment with EGTA or verapamil inhibited completely the increase in [Ca2+]i induced by 50 mM K+. However, pretreatment with EGTA only slightly attenuated the spike phase in [Ca2+]i produced by ionomycin, demonstrating that ionomycin released intracellular stores of calcium. We conclude that rMTC 44-2 cells regulate [Ca2+]i by monitoring small physiological changes in [Ca2+]e, the primary secretagogue for C-cells. |
