Biphasic stimulation of cellular calcium concentration by 3,5,3'-triiodothyronine in rat thymocytes.

3,5,3'-Triiodothyronine (T3) produced a rapid and transient increase in 45Ca uptake and cytoplasmic free calcium concentration in rat thymocytes, which is the most rapid effect of T3 in this system. This effect was manifested in cells suspended in medium containing 1 mM calcium. The T3 effect on 45Ca uptake was evident at 15-30 s, reached maximum at 30-60 s, and returned to control values at 5 min. The T3 effect on cytoplasmic free calcium concentration was seen after 30 s, reached maximum at 7 min, and returned to control values after 24 min. In cells suspended in Ca2+-free medium, T3 produced a similar rapid increase in 45Ca uptake, which was sustained for at least 60 min, but T3 failed to change cytoplasmic free calcium concentration. Alprenolol (10 microM) blocked the stimulatory effects of T3 on these two functions in a similar fashion. From these results, I suggest that in rat thymocytes T3 influences cellular calcium economy through a biphasic mechanism in which T3 first increases calcium uptake which, in turn, is followed by a release of calcium from intracellular pool(s), resulting in a further increase in cytoplasmic free calcium concentration and the activation of Ca2+ -regulated systems. Moreover, the present study provides further support for the postulate that in the rat thymocyte calcium serves as the first messenger for the plasma membrane-mediated stimulatory effects of T3 on several metabolic functions.