V-Crk, an effector of the nerve growth factor signaling pathway, delays apoptotic cell death in neurotrophin-deprived PC12 cells

Abstract

v-Crk is a member of a class of SH2 and SH3-containing adaptor proteins that have been implicated in regulating the TrkA receptor tyrosine kinase and potentiating Nerve Growth Factor (NGF)-mediated neurite outgrowth in pheochromocytoma (PC12) cells. Given the fact that NGF induces both differentiation and survival by binding to TrkA, we examined the rate of apoptotic cell death elicited by NGF-withdrawal in native, v-Crk, and TrkA-expressing PC12 cells. While more than 50% of native PC12 cells underwent apoptosis within 48 h of NGF withdrawal, the v-Crk and TrkA-expressing cells were much more resistant to apoptosis under these conditions, whereby approximately 70 and 95%, respectively, of the cells were alive. The ability of v-Crk to delay apoptosis required prior NGF-dependent differentiation, since naive undifferentiated vCrk expressing PC12 cells or cells that express v-Crk mutants that are defective in NGF signaling were not protected from apoptosis during growth factor withdrawal. Moreover, addition of 50 ng/ml EGF to serum and NGF deprived v-Crk expressing cells, which also causes neurite outgrowth, promoted complete and long-term survival, although such EGF replacement had no neurotrophic effect on wild-type PC12 cells or PC12 cells overexpressing Human Bcl-2. These experiments suggest that v-Crk potentiation of a receptor tyrosine kinase under conditions of growth factor deprivation is essential for preventing apoptosis. However, unlike native PC12 cells, neither v-Crk or TrkA-expressing PC12 cells exhibited a G1 arrest when incubated for 2 weeks in NGF. Thus, v-Crk and TrkA may protect NGF deprived PC12 by preventing cell cycle arrest and hence an aborted entry into a defective cell cycle. Moreover, during NGF-withdrawal, v-CrkPC12 cells exhibited down regulation in MAP kinase and JNK activities while in native cells, these activities increased within 6-8 h after NGF deprivation. Thus, unlike v-Crk-mediated augmentation of differentiation, sustained activation of MAP kinase may not be required for v-Crk-induced cell survival.