Reduced protein kinase C activity in ischemic spinal cord.

Protein phosphorylation was evaluated in a rabbit spinal cord ischemia model under conditions where cyclic AMP-dependent protein kinase (PK-A) and calcium/phospholipid-dependent protein kinase (PK-C) were activated. One hour of ischemia did not affect PK-A activity significantly; however, PK-C activity was reduced by more than 60%. In vitro phosphorylation of endogenous proteins by endogenous PK-C revealed that eight particulate and five cytosolic proteins showed stimulated phosphorylation by PK-C activators in control tissue, although this stimulation was virtually absent in ischemic samples. When control and ischemic particulate fractions were combined, the endogenous protein phosphorylation pattern under PK-C-activating conditions was similar to the ischemic sample, which suggests that inhibitory molecules may be present in the ischemic particulate fraction. In vitro phosphorylation of endogenous proteins under PK-A-activating conditions in ischemic tissue was similar to that in control tissue. The results suggest that the PK-C phosphorylation system is selectively impaired in ischemic spinal cord. In addition to reduced PK-C-dependent phosphorylation, an Mr 64,000 protein was phosphorylated in ischemic cytosolic samples, but not in control samples. The phosphorylation of the Mr 64,000 protein was neither PK-C-dependent nor PK-A-dependent. These altered phosphorylation reactions may play critical roles in neuronal death during the course of ischemia.