A delta-secretase-truncated APP fragment activates CEBPB, mediating Alzheimer ’s disease pathologies

AbstractAmyloid- β precursor protein (APP) is sequentially cleaved by secretases and generates amyloid-β, the major components in senile plaques in Alzheimer’s disease. APP is upregulated in human Alzheimer’s disease brains. However, the molecular mechanism of how APP contributes to Alzheimer’s disease patho genesis remains incompletely understood. Here we show that truncated APP C586-695 fragment generated by δ-secretase directly binds to CCAAT/enhancer-binding protein beta (CEBPB), an inflammatory transcription factor, and enhances its transcriptional activity, escalating Alzheimer’s disease-relate d gene expression and pathogenesis. The APP C586-695 fragment, but not full-length APP, strongly associates with CEBPB and elicits its nuclear translocation and augments the transcriptional activities on APP itself, MAPT (microtubule-associated protein tau), δ-secretase and inflammatory cytokine mR NA expression, finally triggering Alzheimer’s disease pathology and cognitive disorder in a viral overexpression mouse model. Blockade of δ-secretase cleavage of APP by mutating the cleavage sites reduces its stimulatory effect on CEBPB, alleviating amyloid pathology and cognitive dysfunctions. C learance of APP C586-695 from 5xFAD mice by antibody administration mitigates Alzheimer’s disease pathologies and restores cognitive functions. Thus, in addition to the sequestration of amyloid-β, APP implicates in Alzheimer’s disease pathology by activating CEBPB upon δ-s...
Source: Brain - Category: Neurology Source Type: research