Regulation of cytosolic Ca2+ in clonal human muscle cell cultures.

Human muscle cells were grown in culture and clonally selected for fusion potential. The concentration of cytoplasmic ionized calcium, [Ca2+]i, was measured in monolayers of fused myotubes using the Ca2+ indicator indo-1. The contributions of independent routes of Ca2+ influx and efflux to/from the cytoplasm on [Ca2+]i were investigated. The resting [Ca2+]i was 170-190 nM in different cell clones. Acetylcholine increased [Ca2+]i by about 2-fold in the presence of absence of extracellular Ca2+. Cell depolarization by K+ elevated [Ca2+]i about 3-fold, and this increase was largely dependent on extracellular Ca2+. Replacing Na+ by N-methylglucammonium+ raised [Ca2+]i greater than 5-fold, and 50% of this increase was dependent on extracellular Ca2+. All these increases in [Ca2+]i were transient, returning to basal [Ca2+]i within 2 min. It is concluded that cells in culture [Ca2+]i can be elevated transiently by acetylcholine through Ca2+ release from intracellular stores, and by K through Ca2+ influx. The return to basal [Ca2+]i is due to Na+/Ca2+ exchange and Ca2+-ATPase activity.