Tension and cyclic GMP changes in potassium depolarized rabbit colon muscle.

Potassium depolarization of rabbit colon muscle elicited a contraction consisting of 2 distinct phases, an initial rapid phasic contraction and a tonic contracture. The tonic contraction was, in contrast to the phasic contraction, dependent on the extracellular calcium for its development. There was a correlation between the tension development and the increase of the cyclic GMP level in the K+-depolarized muscle. Experimental conditions which abolished the tonic contracture, viz glucose omission and treatment with Ca2+-antagonists (verapamil, SKF 525A) also inhibited the cyclic GMP response. The changes of the cyclic GMP levels were Ca2+-dependent. K+-ions also changes the cyclic AMP content an effect which was atropine sensitive. From the experimental data obtained in this investigation we suggest that the co-variation of the tension and the cyclic GMP level in the depolarized colon muscle might depend on oscillations in a common intracellular factor, probably Ca2+.