Effect of hypothyroidism on the cytosolic free Ca2+ concentration in rat hepatocytes during rest and following stimulation by noradrenaline or vasopressin.

The mean resting concentration of cytosolic free Ca2+ [( Ca2+]i) in parenchymal liver cells, as determined with the intracellular Ca2+ indicator quin2, was lowered by about 30% in hypothyroidism (0.17 microM vs. 0.27 microM in normal cells). The [Ca2+]i level in hypothyroid cells at 10 s following stimulation by noradrenaline (1 microM) was about 64% lower than in normal cells (0.33 microM vs. 1.0 microM). The response to noradrenaline in hypothyroid cells was slower in onset (significant at 5 s vs. 3 s in euthyroid cells), and the maximum of the initial [Ca2+]i increase was reached later (14 s vs. 8 s in normal cells). In hypothyroid hepatocytes the initial increase was followed by a slow but prolonged secondary increase in [Ca2+]i. With vasopressin similar results were found. Chelation of extracellular Ca2+ with EGTA immediately prior to stimulation had no effect on the initial [Ca2+]i increase. Treatment with T3 in vivo (0.5 micrograms/100 g body weight daily during 3 days) completely restored the basal and stimulated [Ca2+]i in hypothyroid cells. The half-maximally effective dose of noradrenaline was the same in euthyroid and hypothyroid liver cells (1.8 X 10(-7) M). Hypothyroidism had no significant effect on the number of alpha 1-receptors determined by [3H]prazosin labeling in crude homogenate fractions, while the Kd for [3H]prazosin was 21% lower than in the euthyroid group. These results show that thyroid hormone has a general stimulating effect on intracellular Ca2+ mobilization by Ca2+-mobilizing hormones, probably at a site distal to the binding of the agonist to its receptor. The results also support our idea that thyroid hormone may control metabolism during rest and activation, at least partially, by altering Ca2+ homeostasis.