Active gamma-secretase complexes contain only one of each component.

Gamma-secretase is an intramembrane aspartyl protease complex that cleaves type I integral membrane proteins, including the amyloid beta-protein precursor and the Notch receptor, and is composed of presenilin, Pen-2, nicastrin, and Aph-1. Although all four of these membrane proteins are essential for assembly and activity, the stoichiometry of the complex is unknown, with the number of presenilin molecules present being especially controversial. Here we analyze functional gamma-secretase complexes, isolated by immunoprecipitation from solubilized membrane fractions and able to produce amyloid beta-peptides and amyloid beta-protein precursor intracellular domain.

Signal peptide peptidase: biochemical properties and modulation by nonsteroidal antiinflammatory drugs.

Signal peptide peptidase (SPP) is an intramembrane aspartyl protease that cleaves remnant signal peptides after their release by signal peptidase. SPP contains active site motifs also found in presenilin, the catalytic component of the gamma-secretase complex of Alzheimer's disease. However, SPP has a membrane topology opposite that of presenilin, cleaves transmembrane substrates of opposite directionality, and does not require complexation with other proteins.

Designed helical peptides inhibit an intramembrane protease.

gamma-Secretase cleaves the transmembrane domain of the amyloid precursor protein, a process implicated in the pathogenesis of Alzheimer's disease, and this enzyme is a founding member of an emerging class of intramembrane proteases. Modeling and mutagenesis suggest a helical conformation for the substrate transmembrane domain upon initial interaction with the protease. Moreover, biochemical evidence supports the presence of an initial docking site for substrate on gamma-secretase that is distinct from the active site, a property predicted to be generally true of intramembrane proteases.

Activity-dependent isolation of the presenilin- gamma -secretase complex reveals nicastrin and a gamma substrate.

Presenilin heterodimers apparently contain the active site of gamma-secretase, a polytopic aspartyl protease involved in the transmembrane processing of both the Notch receptor and the amyloid-beta precursor protein. Although critical to embryonic development and the pathogenesis of Alzheimer's disease, this protease is difficult to characterize, primarily because it is a multicomponent complex of integral membrane proteins. Here the functional gamma-secretase complex was isolated by using an immobilized active site-directed inhibitor of the protease.