NFkappaB-dependent control of BACE1 promoter transactivation by Abeta42

Abstract

Beta-amyloid (Abeta) peptides that accumulate in Alzheimer disease are generated from the beta-amyloid precursor protein (betaAPP) by cleavages by beta-secretase BACE1 and by presenilin-dependent gamma-secretase activities. Very few data document a putative cross-talk between these proteases and the regulatory mechanisms underlying such interaction. We show that presenilin deficiency lowers BACE1 maturation and affects both BACE1 activity and promoter transactivation. The specific gamma-secretase inhibitor DFK167 triggers the decrease of BACE1 activity in wild-type but not in presenilin-deficient fibroblasts. This decrease is also elicited by catalytically inactive gamma-secretase. The overexpression of APP intracellular domain (AICD), the gamma/epsilon-secretase-derived C-terminal product of beta-amyloid precursor protein, does not modulate BACE1 activity or promoter transactivation in fibroblasts and does not alter BACE1 expression in AICD transgenic brains of mice. A DFK167-sensitive increase of BACE1 activity is observed in cells overexpressing APPepsilon (the N-terminal product of betaAPP generated by epsilon-secretase cleavage harboring the Abeta domain but lacking the AICD sequence), suggesting that the production of Abeta could account for the modulation of BACE1. Accordingly, we show that HEK293 cells overexpressing wild-type betaAPP exhibit a DFK167-sensitive increase in BACE1 promoter transactivation that is increased by the Abeta-potentiating Swedish mutation. This effect was mimicked by exogenous application of Abeta42 but not Abeta40 or by transient transfection of cDNA encoding Abeta42 sequence. The IkappaB kinase inhibitor BMS345541 prevents Abeta-induced BACE1 promoter transactivation suggesting that NFkappaB could mediate this Abeta-associated phenotype. Accordingly, the overexpression of wild-type or Swedish mutated betaAPP does not modify the transactivation of BACE1 promoter constructs lacking NFkappaB-responsive element. Furthermore, APP/beta-amyloid precursor protein-like protein deficiency does not affect BACE1 activity and expression. Overall, these data suggest that physiological levels of endogenous Abeta are not sufficient per se to modulate BACE1 promoter transactivation but that exacerbated Abeta production linked to wild-type or Swedish mutated betaAPP overexpression modulates BACE1 promoter transactivation and activity via an NFkappaB-dependent pathway.