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Molecular mechanism of substrate recognition and cleavage by human γ-secretase

Xuefei Guo, Haotian Li, Chuangye Yan, Jianlin Lei, Rui Zhou, Yigong Shi

2024Science38 citationsDOI

Abstract

Successive cleavages of amyloid precursor protein C-terminal fragment with 99 residues (APP-C99) by γ-secretase result in amyloid-β (Aβ) peptides of varying lengths. Most cleavages have a step size of three residues. To elucidate the underlying mechanism, we determined the atomic structures of human γ-secretase bound individually to APP-C99, Aβ49, Aβ46, and Aβ43. In all cases, the substrate displays the same structural features: a transmembrane α-helix, a three-residue linker, and a β-strand that forms a hybrid β-sheet with presenilin 1 (PS1). Proteolytic cleavage occurs just ahead of the substrate β-strand. Each cleavage is followed by unwinding and translocation of the substrate α-helix by one turn and the formation of a new β-strand. This mechanism is consistent with existing biochemical data and may explain the cleavages of other substrates by γ-secretase.

Topics & Concepts

Cleavage (geology)LinkerChemistryTransmembrane domainPresenilinAmyloid precursor proteinBiophysicsTransmembrane proteinStereochemistryHelix (gastropod)BiochemistryBiologyMembraneOperating systemMedicineAlzheimer's diseaseReceptorPathologyFracture (geology)SnailPaleontologyDiseaseComputer scienceEcologyAlzheimer's disease research and treatmentsProtein Structure and DynamicsDrug Transport and Resistance Mechanisms
Molecular mechanism of substrate recognition and cleavage by human γ-secretase | Litcius