The Effect of Neurocatin on Protein Phosphorylation in Striatal Synaptosomes from Rat Brain

Abstract: Neurocatin, a neuroregulatory factor isolated from mammalian brain, is a powerful affector of protein phosphorylation in rat striatal synaptosomes. Two major synaptosomal phosphoproteins of ～80 and ～60 kDa, possibly synapsin I and tyrosine hydroxylase, were especially sensitive to neurocatin. Immunoprecipitation experiments confirmed that the 60-kDa protein is the enzyme tyrosine hydroxylase. At low concentrations of neurocatin (to ～7.5 ng/100 μl of suspension), incorporation of ³²P orthophosphate into these proteins increased with increasing neurocatin concentration. At 7.5 ng of neurocatin, incorporation of the label into the two proteins increased by 22 and 26%, respectively. Concentrations of neurocatin >7.5 ng/100 μl caused progressive decrease in incorporation of ³²P into many synaptosomal proteins; by a concentration of neurocatin of ～45 ng/100 μ/l, the level of ³²P incorporation into many proteins was ≤70% of control. The effects of neurocatin on synaptosomal protein phosphorylation were also dependent on the time of incubation. At a constant concentration of ～7.5 ng/100 μl of neurocatin, increased incorporation of 32P into many proteins was measurable within 0.5 min and was maximal by 1 min. Incubation times >2.0 min, showed progressive decrease in ³²P incorporation. Removing extrasynaptosomal Ca²⁺ with EGTA attenuated the increased ³²P incorporation induced by low neurocatin concentrations, suggesting that calcium plays a role in neurocatin-induced phosphorylation of rat striatal synaptosomal proteins. The reduced incorporation of label induced by high neurocatin concentrations, however, was not calcium dependent. The effects of neurocatin on the level of ³²P incorporation into proteins were observed only in intact synaptosomes, consistent with this compound acting through receptors on the plasma membrane.