A Bex‐cycle built for two

Abstract

Neurotrophins promote neuronal survival, but it has been recognized that they also stimulate differentiation. Indeed, in early studies by Hamburger, Levi‐Montelcini and Cohen, nerve growth factor (NGF) not only promoted survival, but also caused marked neurite outgrowth when added to explants of sensory ganglia (Cohen et al , 1954). The ability of NGF to promote differentiation was particularly well illustrated when Greene & Tischler (1976) showed that a pheochromocytoma cell line (PC12) treated with NGF exited the cell cycle and differentiated into a sympathetic neuron‐like phenotype. Since then, it has been established that the survival and differentiation effects of the neurotrophins are primarily mediated by binding to members of the Trk family of tyrosine kinase receptors (Huang & Reichardt, 2003); however, the first receptor identified for NGF was a 75‐kDa protein referred to as p75 (Chao et al , 1986; Radeke et al , 1987). In the past few years, the p75 receptor has received a lot of attention because of its multifunctional signalling ability. This receptor can promote cell survival or induce apoptosis, regulate neurite outgrowth and promote peripheral myelination, depending on the specific cellular context, the expression of co‐receptors and the activating ligand (Barker, 2004). The role of p75 in promoting differentiation and cell‐cycle arrest has been largely overlooked in recent years, even though this was one of the first cellular responses to be shown to result from the binding of NGF to the receptor. Long considered to be simply a co‐receptor for the Trks, p75 came to be recognized as a bona fide signalling molecule when it was shown to activate sphingomyelinase. This resulted in the production of ceramide, which led to the differentiation of T9 glioma cells as indicated by their cell‐cycle arrest and process outgrowth (Dobrowsky et al , 1994). Although the focus of most subsequent research …