Rapid Phosphorylation of Phospholipase Cγ 1 by Brain‐Derived Neurotrophic Factor and Neurotrophin‐3 in Cultures of Embryonic Rat Cortical Neurons

Phospholipase Cγ1 (PLC‐γ1) is involved at an early step in signal transduction of many hormones and growth factors and catalyzes the hydrolysis of phosphatidylinositol (PI) 4,5‐bisphosphate to diacylglycerol and inositol trisphosphate, two potent intracellular second messenger molecules. The transformation of PC12 cells into neuron‐like cells induced by nerve growth factor is preceded by a rapid stimulation of PLC‐γ1 phosphorylation and PI hydrolysis. The present study analyzed the effects of brain‐derived neurotrophic factor (BDNF) and neurotrophin‐3 (NT‐3) on phosphorylation of PLC‐γ1 in primary cultures of embryonic rat brain cells. BDNF and NT‐3 stimulated the phosphorylation of PLC‐γ1, followed by hydrolysis of PI. The stimulation of PLC‐γ1 phosphorylation occurred within 20 s after addition of BDNF or NT‐3 and lasted up to 30 min, with a peak after 4 min. ED 50 values were similar for BDNF and NT‐3, with τ25 ng/ml. Phosphorylation of PLC‐γ1 by BDNF and NT‐3 was found in cultures from all major brain areas. K‐252b, a compound known to inhibit selectively neurotrophin actions by interfering with the phosphorylation of trk ‐type neurotrophin receptors, prevented the BDNF‐ and NT‐3‐stimulated phosphorylation of PLC‐γ1. Receptors of the trk type were coprecipitated with anti‐PLC‐γ1 antibodies. The presence of trkB mRNA in the cultures was substantiated by northern blot analysis. The action of BDNF and NT‐3 seems to be neuron specific because no phosphorylation of PLC‐γ1 was observed in cultures of nonneuronal brain cells. The results provide evidence that developing neurons of the cerebral cortex and other brain areas are responsive to BDNF and NT‐3, and they indicate that the transduction mechanism of BDNF and NT‐3 in the brain involves rapid phosphorylation of PLC‐γ1 followed by PI hydrolysis.