p75 and TrkA Receptor Signaling Independently Regulate Amyloid Precursor Protein mRNA Expression, Isoform Composition, and Protein Secretion in PC12 Cells

Abstract: The pheochromocytoma PC12 cell line was used as a model system to characterize the role of the p75 neurotrophin receptor (p75^NTR) and tyrosine kinase (Trk) A nerve growth factor (NGF) receptors on amyloid precursor protein (APP) expression and processing. NGF increased in a dose-dependent fashion neurite outgrowth, APP mRNA expression, and APP secretion with maximal effects at concentrations known to saturate TrkA receptor binding. Displacement of NGF binding to p75^NTR by addition of an excess of brain-derived neurotrophic factor abolished NGF's effects on neurite outgrowth and APP metabolism, whereas addition of brain-derived neurotrophic factor alone did not induce neurite outgrowth or affect APP mRNA or protein processing. However, treatment of PC12 cells with C2-ceramide, an analogue of ceramide, the endogenous product produced by the activity of p75^NTR-activated sphingomyelinase, mimicked the effects of NGF on cell morphology and stimulation of both APP mRNA levels and APP secretion. Specific stimulation of TrkA receptors by receptor cross-linking, on the other hand, selectively stimulated neurite outgrowth and APP secretion but not APP mRNA levels, which were decreased. These findings demonstrate that in PC12 cells expressing p75^NTR and TrkA receptors, binding of NGF to the p75^NTR is required to mediate NGF effects on cell morphology and APP metabolism. Furthermore, our data are consistent with NGF having specific effects on p75^NTR not shared with other neurotrophins. Lastly, we have shown that specific activation of TrkA receptors—in contrast to p75^NTR-associated signaling—stimulates neurite outgrowth and increases nonamyloidogenic secretory APP processing without increases in APP mRNA levels.