BNN27 a 17-Spiroepoxy Steroid Derivative Interacts With and Activates p75 Neurotrophin Receptor Rescuing Cerebellar Granule Neurons from Apoptosis

摘要

Neurotrophin receptors mediate a plethora of signals affecting neuronal survival. The p75 pan-neurotrophin receptor controls neuronal cell fate after its selective activation by immature and mature isoforms of all neurotrophins. It also exerts pleiotropic effects interacting with a variety of ligands in different neuronal or non-neuronal cells. In the present study, we explored the biophysical and functional interactions of a blood-brain-barrier (BBB) permeable, C17-spiroepoxy steroid derivative, BNN27, with p75^NTR receptor. BNN27 was recently shown to bind to NGF high-affinity receptor, TrkA. We now tested the p75^NTR-mediated effects of BNN27 in mouse Cerebellar Granule Neurons (CGNs), expressing p75^NTR, but not TrkA receptors. Our findings show that BNN27 physically interacts with p75^NTR receptors in specific amino-residues of its extracellular domain, inducing the recruitment of p75^NTR receptor to its effector protein RIP2 and the simultaneous release of RhoGDI in primary neuronal cells. Activation of the p75^NTR receptor by BNN27 reverses serum deprivation-induced apoptosis of CGNs resulting in the decrease of the phosphorylation of pro-apoptotic JNK kinase and of the cleavage of Caspase-3, effects completely abolished in CGNs, isolated from p75^NTR null mice. In conclusion, BNN27 represents a lead molecule for the development of novel p75^NTR ligands, controlling specific p75^NTR-mediated signaling of neuronal cell fate, with potential applications in therapeutics of neurodegenerative diseases and brain trauma.