Secreted amyloid precursor protein alpha activates neuronal insulin receptors and prevents diabetes-induced encephalopathy.

Secreted amyloid precursor protein alpha (sAPPα) is a potent neurotrophin in the CNS but a dedicated receptor has not been found. However, protein interactions involving amyloid beta (Aß), a peptide cleaved from the same parent peptide as sAPPα, indicate that insulin receptors (IRs) could be a target of amyloid peptides. In this study, in vitro analysis of cortical neuronal cultures revealed that exogenous sAPPα increased IR phosphorylation in the absence of insulin. Furthermore, in an APP overexpressing mouse model, sAPPα bound IRs in the cortex with significantly greater binding in hypoinsulinemic animals. To further examine the effects of sAPPα on the diabetic brain, we next rendered sAPPα overexpressing mice insulin depleted and found that sAPPα blocked aberrant tau phosphorylation (T231) in cortical tissue after 16 weeks diabetes. sAPPα overexpression also prevented hyperphosphorylation of AKT/GSK3 and activation of the unfolded protein response (UPR). In total, these data show sAPPα binds and activates neuronal IRs and that sAPPα has a protective effect on diabetic brain tissue.