A New Approach to Study the Relationship between Calcium Waves and Diastolic [Ca2+] i in Heart Muscle Cells

Abstract

In the present study, changes in calcium waves with alternation of diastolic [Ca²⁺] _i were investigated in a single common rat neonatal cultured heart muscle cell without changes in extracellular conditions. Heart muscle cells were loaded with fluo-3 by the “whole cell clamp” technique. Rapid chan ges in diastolic [Ca²⁺] _i by variations in the membrane potential clarified the influences on calcium waves. When the membrane potential was held at 0 mV, inter wave basal [Ca²⁺] _i were maintained at a high level. The membrane-holding potential was then momentarily altered to -80 mV and the basal [Ca²⁺] _i registered a lower level within 1 sec. During these events, spontaneous calcium waves were analyzed by confocal laser scanning microscopy (X-t scanning mode). The frequency and velocity of calcium waves at 0 mV significantly increased compared with those at-80 mV. Moreover, these changes were more pronounced with increasing extracellular [Ca²⁺]. These results suggest that diastolic [Ca²⁺] _i; directly influences calcium waves.