Force during stretch and shortening of frog sartorius muscle: Effects of intracellular acidification due to increased carbon dioxide

Abstract

Summary The force—velocity relation of frog sartorius muscle was observed during slow stretch and during shortening in solutions with and without CO₂ at extracellular pH (pH_o) 6.9 and pH_o 7.5 (5° C). Less force was produced with CO₂ than without CO₂ during stretch, during shortening, and under isometric conditions. Compared with pH_o 7.5, the effects were greater at pH_o 6.9, where the concentration of CO₂, a permeant acid, was greater and would cause a greater acidification of intracellular pH (pH_i). The reduction of force caused by CO₂ was smaller during stretch than during shortening or isometric contraction. This result indicates that the crossbridge states specific to stretch retain their ability to produce force better under acidic conditions than those characteristic of shortening and isometric conditions. This difference between stretch and shortening suggests that there may be compensating changes in the pattern of motor unit activity during fatiguein vivo.