Protein phosphorylation during the contraction-relaxation-contraction cycle of arterial smooth muscle.

Porcine carotid arterial muscles were labeled with 32P and then subjected to a resting-contraction-relaxation-contraction cycle. Four different agents were used for contraction: KCl, histamine, norepinephrine, and phorbol dibutyrate. To relax the contracted muscles, they were washed with physiological salt solution. Changes in the [32P]phosphate content of four different proteins--myosin light chain, a 28-kDa cytosolic protein, desmin, and caldesmon--were followed. In a short contraction-relaxation-contraction cycle lasting minutes, induced by K+, histamine, or norepinephrine, only the light chain underwent a phosphorylation-dephosphorylation-rephosphorylation without concomitant cyclic phosphorylation of the 28-kDa protein, desmin, or caldesmon. In a contraction-relaxation-contraction cycle of long duration, 60-min contractions with K+, histamine, or norepinephrine, cyclic phosphorylation of both the light chain and desmin was observed. With 60-min phorbol dibutyrate stimulation, in the long contraction-relaxation-contraction cycle, the phosphorylations of the light chain, desmin, and caldesmon were cycling. It is concluded that under physiological conditions, light-chain phosphorylation initiates both short and sustained arterial contraction. Desmin phosphorylation is likely to be involved in force maintenance during sustained contraction.