抄録
Cardiac muscle contraction is controlled by intracellular Ca transients (CaT) and muscle length. In the present study, we observed the effects of Ca delivery to contractile elements and muscle length on the recovery of contraction after CO2 acidosis. We used the left ventricular papillary muscle obtained from C57BL/6 mice and from SERCA2a-overexpressed mice. We simultaneously measured CaT and tension in both preparations during and after CO2 acidosis using the aequorin method (30°C).The length of the preparation was changed from Lmax, in which developed tension reached maximum, to 92%Lmax and 84%Lmax. At each length, tension decreased and CaT increased in CO2 acidosis. After CO2 acidosis, tension and CaT did not fully recover at Lmax. However, at shorter lengths, tension and CaT after CO2 acidosis were well maintained compared to those before acidosis. We also measured CaT and tension at Lmax after CO2 acidosis using SERCA2a-overexpressed transgenic myocardium (TG). In TG, CaT was significantly higher than that in non-TG during and after CO2 acidosis. After acidosis, tension and CaT were well recovered compared to those in non-TG myocardium. Thus, sufficient Ca delivery to the myofilaments and muscle length are important factors for the recovery from pathophysiological conditions, in particular from CO2 acidosis. [Jpn J Physiol 54 Suppl:S97 (2004)]
