The amyloid precursor protein (APP) and its paralogs, amyloid precursor-like protein 1 (APLP1) and APLP2, are metalloproteins with a putative role both in synaptogenesis and in maintaining synapse structure. Here, we studied the effect of zinc on membrane localization, adhesion, and secretase cleavage of APP, APLP1, and APLP2 in cell culture and rat neurons. For this, we employed live-cell microscopy techniques, a microcontact printing adhesion assay and ELISA for protein detection in cell culture supernatants. We report that zinc induces the multimerization of proteins of the amyloid precursor protein family and enriches them at cellular adhesion sites. Thus, zinc facilitates the formation of de novo APP and APLP1 containing adhesion complexes, whereas it does not have such influence on APLP2. Furthermore, zinc-binding prevented cleavage of APP and APLPs by extracellular secretases. In conclusion, the complexation of zinc modulates neuronal functions of APP and APLPs by (i) regulating formation of adhesion complexes, most prominently for APLP1, and (ii) by reducing the concentrations of neurotrophic soluble APP/APLP ectodomains. Keywords: amyloid precursor protein, amyloid precursor-like protein, neuronal adhesion, number and brightness, zinc. Abbreviations used: AD, Alzheimer's disease; ADAM, a disintegrin and metalloproteinase; APLP, amyloid precursor-like protein; APP, amyloid precursor protein; Ab, b-amyloid peptide; BMGY, buffered glycerol-complex medium; BMMY, buffered methanol-complex medium; cLSM, confocal laser scanning microscopy; HBS, HEPES-buffered saline; N&B, number and brightness; PDL, poly-D-lysine; PDMS, polydimethylsiloxane; PM, plasma membrane; RIP, regulated intramembrane proteolysis; sAPP/APLP, soluble APP/APLP; YFP, yellow fluorescent protein.
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