Retrograde NGF signalling and survival in compartmentalized sympathetic neurons

Previous work has shown that neurotrophins bind to and activate Trk receptors on distal axons, and that neurotrophin‐Trk complexes are internalized and retrogradely transported to cell bodies. Whether retrograde transport of neurotrophins and retrograde neurotrophin‐Trk signalling are necessary for survival remains unclear, and recently published findings are controversial. We are using compartmentalized cultures of sympathetic neurons to address the mechanism of retrograde NGF signalling and survival. We performed survival experiments using either the Trk kinase inhibitor K252a to inhibit TrkA activity in different cellular compartments, or a dominant‐negative form of dynamin, K44A dynamin, to block internalization of NGF‐TrkA complexes. We found that sympathetic neurons supported by NGF acting on distal axons undergo apoptosis when TrkA activity in either cell bodies or distal axons is inhibited by K252a, or when internalization is blocked by K44A dynamin. Results of experiments employing three‐compartment chambers indicate that TrkA signalling is required within cell bodies and distal axons, but not in proximal axons, for retrograde support of survival. Likewise, TrkA activity within distal axons, but not in proximal axons, is required for retrograde transport of [125I] NGF. Finally, peptide‐mediated delivery of affinity‐purified anti‐NGF into cell bodies results in apoptosis of neurons. Taken together, our results support a model in which NGF internalization and retrograde transport and retrograde TrkA signalling are necessary for survival of sympathetic neurons. This work is supported by the NIH and HHMI.