Inhibition of Ca2+ accumulation in isolated sarcoplasmic reticulum by thyroid hormones.

Thyroid hormones inhibit Ca2+ accumulation and ATPase activity of isolated sarcoplasmic reticulum vesicles. Half-maximal inhibition was obtained by about 2.5 microM. The ATP hydrolysis activity of the purified (Ca2+ + Mg2+)-ATPase or of the SR vesicles, in the presence of the Ca2+ ionophore A23187, is not inhibited by T3 or T4. Modification of T3 or T4 in the ring portion, but not in the amino portion, of the molecules results in T4 and T3 analogues which are unable to inhibit Ca2+ accumulation. T3 and T4 have no significant effect on various partial reactions of the transport cycle such as: the binding of ATP and Ca2+, or ADP-ATP exchange and E-P formation from ATP, but they inhibit the E-P formation from inorganic phosphate (Pi) and ATP-Pi exchange. The inhibition of both Ca2+ accumulation and ATPase activity by T3 or T4 is increased in the presence of Pi. Binding sites for [125I]T3 and for [125I]T4 in SR proteins were demonstrated using either equilibrium dialysis or gel overlay techniques. The results suggest that the thyroid hormones inhibit the ATP-dependent Ca2+ accumulation, probably by inhibiting the transport of anions which act as the Ca2+ precipitating anion.