Swelling of Skinned Muscle Fibers of the Frog: Experimental Observations

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Swelling of Skinned Muscle Fibers of the Frog

Experimental Observations

Robert E. Godt and David W. Maughan

ABSTRACT

Frog skeletal muscle fibers, mechanically skinned under water-saturatedsilicone oil, swell upon transfer to aqueous relaxing medium(60 mM KCl; 3 mM MgCl₂; 3 mM ATP; 4 mM EGTA; 20 mM Tris maleate;pH = 7.0; ionic strength 0.15 M). Their cross-sectional areas,estimated with an elliptical approximation, increase 2.32-fold(±0.54 SD). Sarcomere spacing is unaffected by this swelling.Addition of 200 mM sucrose to relaxing medium had no effecton fiber dimensions, whereas decreasing pH to 5.0 caused fibersto shrink nearly to their original (oil) size. Decreasing MgCl₂to 0.3 mM caused fibers to swell 10%, and increasing MgCl₂ to9 mM led to an 8% shrinkage. Increasing ionic strength to 0.29M with KCl caused a 26% increase in cross-sectional area; decreasingionic strength to 0.09 M had no effect. Swelling pressure wasestimated with long-chain polymers, which are probably excludedfrom the myofilament lattice. Shrinkage in dextran T10 (numberaverage mol wt 6,200) was transient, indicating that this polymermay penetrate into the fibers. Shrinkage in dextran T40 (numberaverage mol wt 28,000), polyvinylpyrrolidone (PVP) K30 (numberaverage mol wt 40,000) and dextran T70 (number average mol wt40,300) was not transient, indicating exclusion. Maximal calcium-activatedtension is decreased by 21% in PVP solutions and by 31% in dextranT40 solutions. Fibers were shrunk to their original size with8 x 10^-2 g/cm³ PVP K30, a concentration which, from osmometricdata, corresponds to an osmotic pressure (II/RT) of 10.5 mM.As discussed in the text, we consider this our best estimateof the swelling pressure. We find that increasing ionic strengthto 0.39 M with KCl decreases swelling pressure slightly, whereasdecreasing ionic strength to 0.09 M has no effect. We feel thesedata are consistent with the idea that swelling arises fromthe negatively charged nature of the myofilaments, from eithermutual filamentary repulsion or a Donnan-osmotic mechanism.

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