NGF Stimulation of erk Phosphorylation Is Impaired by a Point Mutation in the Transmembrane Domain of trkA Receptor

Abstract

The nerve growth factor (NGF) trkA receptor is a transmembrane glycoprotein composed of a large extracellular ligand-binding region connected to the cytoplasmic tyrosine kinase region by a single transmembrane domain (TMD). To explore the role of TMD in the process of receptor activation, we substituted the hydrophobic amino-acid residue valine 432 with the charged amino-acid glutamic acid (designated V432E mutant) by utilizing in vitro site-directed mutagenesis. NIH 3T3 cells lacking endogenous NGF receptors were stably transfected with a pRc/CMV vector carrying either wild-type (trkA) or mutated (V432E) receptors. Stable transfectants were shown, using ¹²⁵I-NGF binding and Western-blot analysis, to express the trkA recombinant receptors. Scatchard analysis revealed similar affinity for NGF in wild-type and V432E receptors. Although the level of basal trkA receptor tyrosine phosphorylation was higher in the mutant than in the wild-type, NGF stimulation of WT 11 and V432E transfectants resulted in a rapid increase in receptor tyrosine phosphorylation and of its intracellular adaptor protein SHC. In contrast to WT 11, V432E mutants showed very low levels of NGF-, and moderate levels of FGF-induced erks phosphorylation, respectively. Collectively, these findings suggest that a single substitution (V432E) in the trkA TMD results in a selective impairment of trkA-mediated erks signaling pathway.