The proteases that cleave amyloid precursor protein (APP) leading to generation of amyloid A beta peptide are potential targets for therapeutical intervention of Alzheimer disease. We have been pursuing the identification and characterization of these proteases using as probes the fluorogenic substrates encompassing the cleavage sites of APP that we described recently (Wang, G. T., Krafft, G. A. [1992] Bioorg. Med. Chem. Lett. 2, 1665). This article describes results of experiments designed to examine the effect of Ca(2+) on the cleavage of these substrates by human brain extracts. Fluorogenic substrates encompassing either the N-terminal amyloidogenic cleavage site or the secretory cleavage site were synthesized in five formats with various peripheral residues. Incubation with extracts from normal brain tissue revealed that more negatively charged amyloidogenic substrates were less reactive and exhibited larger rate enhancement in the presence of Ca(2+). The results imply that Ca(2+) stimulation of substrate cleavage by brain proteases occurs primarily as a result of Ca(2+)-substrate interactions, and caution against interpretations that invoke the involvement of Ca(2+)-stimulated proteases in A beta formation.