Daniel R. Montagna scite author profile

γ-secretase is responsible for the proteolysis of amyloid precursor protein (APP) into short, aggregation-prone amyloid-beta (Aβ) peptides, which are centrally implicated in the pathogenesis of Alzheimer’s disease (AD). Despite considerable interest in developing γ-secretase targeting therapeutics for the treatment of AD, the precise mechanism by which γ-secretase produces Aβ has remained elusive. Herein, we demonstrate that γ-secretase catalysis is driven by the stabilization of an enzyme-substrate scission complex via three distinct amino-acid-binding pockets in the enzyme’s active site, providing the mechanism by which γ-secretase preferentially cleaves APP in three amino acid increments. Substrate occupancy of these three pockets occurs after initial substrate binding but precedes catalysis, suggesting a conformational change in substrate may be required for cleavage. We uncover and exploit substrate cleavage preferences dictated by these three pockets to investigate the mechanism by which familial Alzheimer’s disease mutations within APP increase the production of pathogenic Aβ species.DOI: http://dx.doi.org/10.7554/eLife.17578.001

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Nicastrin functions to sterically hinder γ-secretase–substrate interactions driven by substrate transmembrane domain

Bolduc

Montagna

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

129

152

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γ-Secretase is an intramembrane-cleaving protease that processes many type-I integral membrane proteins within the lipid bilayer, an event preceded by shedding of most of the substrate's ectodomain by α-or β-secretases. The mechanism by which γ-secretase selectively recognizes and recruits ectodomain-shed substrates for catalysis remains unclear. In contrast to previous reports that substrate is actively recruited for catalysis when its remaining short ectodomain interacts with the nicastrin component of γ-secretase, we find that substrate ectodomain is entirely dispensable for cleavage. Instead, γ-secretase-substrate binding is driven by an apparent tight-binding interaction derived from substrate transmembrane domain, a mechanism in stark contrast to rhomboid-another family of intramembrane-cleaving proteases. Disruption of the nicastrin fold allows for more efficient cleavage of substrates retaining longer ectodomains, indicating that nicastrin actively excludes larger substrates through steric hindrance, thus serving as a molecular gatekeeper for substrate binding and catalysis.

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Alternative polyadenylation and miR‐34 family members regulate tau expression

Dickson

Kruse

Montagna

et al. 2013

Journal of Neurochemistry

121

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Tau pathologically aggregates in Alzheimer’s disease, and evidence suggests that reducing tau expression may be safe and beneficial for the prevention or treatment of this disease. We sought to examine the role of the 3’-untranslated region (3’-UTR) of human tau mRNA in regulating tau expression. Tau expresses two 3’-UTR isoforms, long and short, as a result of alternative polyadenylation. Using luciferase reporter constructs, we found that expression from these isoforms is differentially controlled in human neuroblastoma cell lines M17D and SH-SY5Y. Several microRNAs were computationally identified as candidates that might bind the long, but not short, tau 3’-UTR isoform. A hit from a screen of candidates, miR-34a, was subsequently shown to repress the expression of endogenous tau protein in M17D cells. Conversely, inhibition of endogenously expressed miR-34 family members leads to increased endogenous tau expression. Additionally, through an unbiased screen of fragments of the human tau 3’-UTR using a luciferase reporter assay, we identified several other regions in the long tau 3’-UTR isoform that contain regulatory cis-elements. Improved understanding of the regulation of tau expression by its 3’-UTR may ultimately lead to the development of novel therapeutic strategies for the treatment of Alzheimer’s disease and other tauopathies.

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