The location of chloride in single striated muscle fibers of the giant barnacle

Abstract

Chloride-sensitive Ag–AgCl microelectrodes were inserted into single striated muscle fibers of the giant barnacle, Balanus nubilus, to measure the activity of Cl⁻ in the myoplasm, (a_Cl)_i. Chemical analysis was also carried out to determine the total concentration of Cl⁻ in the fiber, [Cl]_i. In two sets of experiments, (a_Cl)_i was 28.8 and 22.4 mM while [Cl]_i was 75.1 and 66.8 mmoles/kg fiber water respectively. The transmembrane Cl⁻ potential, calculated from the a_Cl measurements in the myoplasm and the bath, was slightly less than the membrane potential. To locate the large fraction of fiber Cl⁻ that is not free in the myoplasm, Cl⁻ washout studies were done in constant [K]_o[Cl]_o product Ringer solutions in which [Cl]_o was reduced to 50% and 25% of the normal concentration. Fibers which were soaked in these solutions for 30 min showed no change in (a_Cl)_i but a large drop in [Cl]_i. From the extent of this drop, it was calculated that these muscle fibers have an extracellular space of about 5% of fiber volume. Electron microscopic studies indicate that this space is comprised of large clefts and smaller tubules which penetrate deeply into the fiber.