Abstract.
Inhibiting the production of amyloid-β by antagonising γ-secretase activity is currently being pursued as a therapeutic strategy for Alzheimer’s disease (AD). However, early pre-clinical studies have demonstrated that disruption of presenilin-dependent γ-secretase alters many presenilin-dependent processes, leading to early lethality in several AD model organisms. Subsequently, transgenic animal studies have highlighted several gross developmental side effects arising from presenilin deficiency. Partial knockdown or tissue-specific knockout of presenilins has identified the skin, vascular and immune systems as very sensitive to loss of presenilin functions. A more appreciative understanding of presenilin biology is therefore demanded if γ-secretase is to be pursued as a therapeutic target. Herein we review the current understanding of γ-secretase complexes; their regulation, abundance of interacting partners and diversity of substrates. We also discuss regulation of the γ-secretase complexes, with an emphasis on the functional role of presenilins in cell biology.
Keywords. Presenilin, γ-secretase complexes, regulated intramembrane proteolysis, signal transduction, Alzheimer’s disease
Footnotes
Received 25 July 2008; received after revision 24 November 2008; accepted 10 December 2008