Measurement and modification of free calcium transients in frog skeletal muscle fibres by a metallochromic indicator dye.

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Myoplasmic free calcium transients were monitored with the metallochromic indicator dye Antipyrylazo III (AP III) in single frog skeletal muscle fibres cut at both ends, stretched so as to minimize or eliminate contractile filament overlap and voltage clamped using a double-Vaseline-gap system (approximately 6 degrees C). The dye entered the central fibre segment by diffusion from the solution applied to the two cut ends. The diffusion coefficient of AP III was about 20 times lower in the fibre than in solution. This very slow diffusion was not due to binding of dye since the ratio of bound to free dye obtained from analysis of the diffusion was only about 0.45. For a given depolarizing pulse, the ratio of dye-related absorbance changes delta A at 720 and 550 nm was the same as that produced on adding calcium to dye in calibrating solution, indicating that these signals were due to changes in myoplasmic calcium. The delta A signals at 700 or 720 nm were used to monitor transient changes in concentration of calcium-dye complex [CaD2] and of free calcium [Ca] in the myofilament space. By applying the same pulse at different times during dye entry, it was observed that increasing dye concentrations [D]T produced the following effects: (a) [CaD2] was increased; (b) [Ca] was decreased at early times during a pulse; (c) a declining phase of [Ca] observed at late times during pulses was decreased and finally reversed to a slow rising phase at high [D]T; (d) the decay of [Ca] after the pulse was slowed. Analyses of the effects of [D]T on (a) the magnitude of [CaD2] at a given early time during the calcium release produced by pulses to a given voltage and on (b) the time constant for [Ca] decay after a pulse were both consistent with a calcium: dye stoichiometry of 1:2 in the fibre as found in calibrating solution. Analysis of the effect of [D]T on the [Ca] decay time constants also revealed the presence of intrinsic rapidly equilibrating myoplasmic calcium binding sites and provided the basis for obtaining estimates of the combined concentration [Ca] of free calcium plus calcium bound to such sites. Unlike the estimates of [Ca], these estimates of [Ca] are independent of the value of the calcium-dye dissociation constant.(ABSTRACT TRUNCATED AT 400 WORDS)

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