The effect of hyperosmolarity and insulin on resting tension and calcium fluxes in rat soleus muscle.

Abstract

The effect of hyperosmolarity on resting tension and on the fluxes of Na and Ca was characterized in isolated soleus muscles of the rat. When the osmolarity of the incubation medium was increased by the addition of non-permeant solutes (100-400 mosmol), the tension showed a rapid dose-dependent rise which could be maintained for up to 60 min. Tension development was unaffected by tubocurarine (2 .times. 10-5 M), considerably diminished by the omission of Na or Ca from the incubation medium and inhibited by tetracaine (10-4 M). The addition of mannitol or sucrose (200 mM) induced a prompt stimulation of the influx of 22Na and 45Ca. Both in the absence and the presence of extracellular Ca hyperosmolarity stimulated the washout of 45Ca from preloaded muscles. Tetracaine (5 .times. 10-4M) suppressed the effects of hyperosmolarity on both the influx and the efflux of 45Ca, but only gave a modest reduction in the stimulation of 22Na influx. Insulin (5-100 milli-units/ml.) induced a considerable further rise in the resting tension of muscles exposed to mannitol or sucrose (200 mM). This effect was seen in a glucose-free medium and could be abolished by the addition of insulin antibody. Hyperosmolarity leads to a rise in the concentration of free Ca2+ ions in the sarcoplasm, partly due to a mobilization of Ca from intracellular pools, but to a considerable extent supplemented from extracellular sources. Under these conditions, insulin further augments the Ca2+ ion level in the cytoplasm.