Effect of temperature on relaxation rate and Ca2+, Mg2+ dissociation rates from parvalbumin of frog muscle fibres.

Abstract

1. Influence of temperature on relaxation rate as a function of isometric tetanus duration and on Ca2+ and Mg2+ dissociation rates from purified parvalbumin (PA) was examined to test the hypothesis that PA promotes relaxation in frog skeletal muscle. Single fibres and PA IVB from Rana temporaria skeletal muscle were utilized. 2. The magnitude of slowing of relaxation rate with increasing tetanus duration, relative to the final, steady value of relaxation rate, is 3‐fold greater at O than at 10 degrees C. 3. In the 0‐10 degrees C range, the Q10 for relaxation rate increases from 2.3 to 3.7 with increasing tetanus duration. 4. Dissociation of Ca2+ and Mg2+ from PA exhibited: (i) rate constants of 1.03 +/‐ 0.03 s‐1 (mean +/‐ S.D., n = 5) and 3.42 +/‐ 0.14 s‐1 (n = 5) at 20 degrees C and (ii) Q10 values of 2.3 and 1.9 in the 0‐20 degrees C range, respectively. 5. Time courses of slowing of relaxation rate with increasing tetanus duration and recovery of relaxation rate with rest after a prolonged tetanus at 10 degrees C are similar to rates of dissociation of Mg2+ and Ca2+ from PA, respectively, as previously reported at 0 degree C. 6. Both the temperature dependence of the relative magnitude of slowing of relaxation rate and the increased Q10 of relaxation rate with increased tetanus duration can be explained if the Q10 for Ca2+ uptake by the sarcoplasmic reticulum is greater than the Q10 for Ca2+ sequestration by PA during relaxation. When Ca2+ and Mg2+ dissociation rates from PA at various temperatures are compared to other proposed indicators of PA function, it is concluded that PA facilitates relaxation of frog skeletal muscle in the 0‐20 degrees C range.