Implication of APP secretases in notch signaling

Author： Hartmann Dieter Tournoy Jos Saftig Paul Annaert Wim Strooper Bart

ISSN： 0895-8696

Source： Journal of Molecular Neuroscience, Vol.17, Iss.2, 2001-10, pp. : 171-181

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Abstract

Signaling via notch receptors and their ligands is an evolutionary ancient and highly conserved mechanism governing cell-fate decisions throughout the animal kingdom. Upon ligand binding, notch receptors are subject to a two-step proteolysis essential for signal transduction. First, the ectodomain is removed by an enzyme cleaving near the outer-membrane surface (“site2”). Consecutively, the notch intracellular domain is liberated by a second protease cutting within the transmembrane sequence (“site3”). The intracellular domain is then transferred to the nucleus to act as a transcriptional coactivator. The proteases involved in notch receptor activation are shared with other proteins undergoing regulated intramembrane proteolysis, with intriguing parallels to APP. Specifically, site3 cleavage of Notch, as well as γ-secretase processing of APP depend both critically on presenilins 1 and 2. Moreover, ADAM 10 and ADAM 17, the proteases proposed to perform site2 cleavage, are also the most probable candidate α-secretases to cleave APP.While the biological significance of APP processing remains to be further elucidated, interference with notch signaling has been shown to have severe consequences both in small animal models as well as in humans. Thus, a growing number of long known genetic syndromes like Alagille syndrome or Fallot’s tetralogy can be caused by mutations of genes relevant for the notch signaling pathway. Likewise, the anticipated interference of γ-secretase inhibitors with site3 cleavage may turn out to be a major obstacle for this therapeutic approach to Alzheimer’s disease.