EMBO Journal, 19 October 2005, Vol.24(20), pp.3624-3634
The amyloid precursor protein (APP) plays a central role in Alzheimer's disease, but its physiological function and that of its mammalian paralogs, the amyloid precursor‐like proteins 1 and 2 (APLPs), is still poorly understood. APP has been proposed to form dimers, a process that could promote cell adhesion via ‐dimerization. We investigated the dimerization and cell adhesion properties of APP/APLPs and provide evidence that all three paralogs are capable of forming homo‐ and heterocomplexes. Moreover, we show that ‐interaction of APP family proteins promotes cell–cell adhesion in a homo‐ and heterotypic fashion and that endogenous APLP2 is required for cell–cell adhesion in mouse embryonic fibroblasts. We further demonstrate interaction of all the three APP family members in mouse brain, genetic interdependence, and molecular interaction of APP and APLPs in synaptically enriched membrane compartments. Together, our results provide evidence that homo‐ and heterocomplexes of APP/APLPs promote ‐cellular adhesion .
Alzheimer'S Disease ; App ; Cell Adhesion ; Dimerization