A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis

Eric H. Schroeter; Ma Xenia G. Ilagan; Anne L. Brunkan; Silva Hecimovic; Yue Ming Li; Min Xu; Huw D. Lewis; Meera T. Saxena; Bart De Strooper; Archie Coonrod; Taisuke Tomita; Takeshi Iwatsubo; Chad L. Moore; Alison Goate; Michael S. Wolfe; Mark Shearman; Raphael Kopan

doi:10.1073/pnas.1735338100

A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis

Eric H. Schroeter, Ma Xenia G. Ilagan, Anne L. Brunkan, Silva Hecimovic, Yue Ming Li, Min Xu, Huw D. Lewis, Meera T. Saxena, Bart De Strooper, Archie Coonrod, Taisuke Tomita, Takeshi Iwatsubo, Chad L. Moore, Alison Goate, Michael S. Wolfe, Mark Shearman, Raphael Kopan

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187 Scopus citations

Abstract

Notch receptors and the amyloid precursor protein are type I membrane proteins that are proteolytically cleaved within their transmembrane domains by a presenilin (PS)-dependent γ-secretase activity. In both proteins, two peptide bonds are hydrolyzed: one near the inner leaflet and the other in the middle of the transmembrane domain. Under saturating conditions the substrates compete with each other for proteolysis, but not for binding to PS. At least some Alzheimer's disease-causing PS mutations reside in proteins possessing low catalytic activity. We demonstrate (i) that differentially tagged PS molecules coimmunoprecipitate, and (ii) that PS N-terminal fragment dimers exist by using a photoaffinity probe based on a transition state analog γ-secretase inhibitor. We propose that γ-secretase contains a PS dimer in its catalytic core, that binding of substrate is at a site separate from the active site, and that substrate is cleaved at the interface of two PS molecules.

Original language	English
Pages (from-to)	13075-13080
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	100
Issue number	22
DOIs	https://doi.org/10.1073/pnas.1735338100
State	Published - Oct 28 2003

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Schroeter, E. H., Ilagan, M. X. G., Brunkan, A. L., Hecimovic, S., Li, Y. M., Xu, M., Lewis, H. D., Saxena, M. T., De Strooper, B., Coonrod, A., Tomita, T., Iwatsubo, T., Moore, C. L., Goate, A., Wolfe, M. S., Shearman, M., & Kopan, R. (2003). A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis. Proceedings of the National Academy of Sciences of the United States of America, 100(22), 13075-13080. https://doi.org/10.1073/pnas.1735338100

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title = "A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis",

abstract = "Notch receptors and the amyloid precursor protein are type I membrane proteins that are proteolytically cleaved within their transmembrane domains by a presenilin (PS)-dependent γ-secretase activity. In both proteins, two peptide bonds are hydrolyzed: one near the inner leaflet and the other in the middle of the transmembrane domain. Under saturating conditions the substrates compete with each other for proteolysis, but not for binding to PS. At least some Alzheimer's disease-causing PS mutations reside in proteins possessing low catalytic activity. We demonstrate (i) that differentially tagged PS molecules coimmunoprecipitate, and (ii) that PS N-terminal fragment dimers exist by using a photoaffinity probe based on a transition state analog γ-secretase inhibitor. We propose that γ-secretase contains a PS dimer in its catalytic core, that binding of substrate is at a site separate from the active site, and that substrate is cleaved at the interface of two PS molecules.",

author = "Schroeter, {Eric H.} and Ilagan, {Ma Xenia G.} and Brunkan, {Anne L.} and Silva Hecimovic and Li, {Yue Ming} and Min Xu and Lewis, {Huw D.} and Saxena, {Meera T.} and {De Strooper}, Bart and Archie Coonrod and Taisuke Tomita and Takeshi Iwatsubo and Moore, {Chad L.} and Alison Goate and Wolfe, {Michael S.} and Mark Shearman and Raphael Kopan",

year = "2003",

month = oct,

day = "28",

doi = "10.1073/pnas.1735338100",

language = "English",

volume = "100",

pages = "13075--13080",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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Schroeter, EH, Ilagan, MXG, Brunkan, AL, Hecimovic, S, Li, YM, Xu, M, Lewis, HD, Saxena, MT, De Strooper, B, Coonrod, A, Tomita, T, Iwatsubo, T, Moore, CL, Goate, A, Wolfe, MS, Shearman, M & Kopan, R 2003, 'A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis', Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no. 22, pp. 13075-13080. https://doi.org/10.1073/pnas.1735338100

A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis. / Schroeter, Eric H.; Ilagan, Ma Xenia G.; Brunkan, Anne L. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 100, No. 22, 28.10.2003, p. 13075-13080.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - A presenilin dimer at the core of the γ-secretase enzyme

T2 - Insights from parallel analysis of Notch 1 and APP proteolysis

AU - Schroeter, Eric H.

AU - Ilagan, Ma Xenia G.

AU - Brunkan, Anne L.

AU - Hecimovic, Silva

AU - Li, Yue Ming

AU - Xu, Min

AU - Lewis, Huw D.

AU - Saxena, Meera T.

AU - De Strooper, Bart

AU - Coonrod, Archie

AU - Tomita, Taisuke

AU - Iwatsubo, Takeshi

AU - Moore, Chad L.

AU - Goate, Alison

AU - Wolfe, Michael S.

AU - Shearman, Mark

AU - Kopan, Raphael

PY - 2003/10/28

Y1 - 2003/10/28

N2 - Notch receptors and the amyloid precursor protein are type I membrane proteins that are proteolytically cleaved within their transmembrane domains by a presenilin (PS)-dependent γ-secretase activity. In both proteins, two peptide bonds are hydrolyzed: one near the inner leaflet and the other in the middle of the transmembrane domain. Under saturating conditions the substrates compete with each other for proteolysis, but not for binding to PS. At least some Alzheimer's disease-causing PS mutations reside in proteins possessing low catalytic activity. We demonstrate (i) that differentially tagged PS molecules coimmunoprecipitate, and (ii) that PS N-terminal fragment dimers exist by using a photoaffinity probe based on a transition state analog γ-secretase inhibitor. We propose that γ-secretase contains a PS dimer in its catalytic core, that binding of substrate is at a site separate from the active site, and that substrate is cleaved at the interface of two PS molecules.

AB - Notch receptors and the amyloid precursor protein are type I membrane proteins that are proteolytically cleaved within their transmembrane domains by a presenilin (PS)-dependent γ-secretase activity. In both proteins, two peptide bonds are hydrolyzed: one near the inner leaflet and the other in the middle of the transmembrane domain. Under saturating conditions the substrates compete with each other for proteolysis, but not for binding to PS. At least some Alzheimer's disease-causing PS mutations reside in proteins possessing low catalytic activity. We demonstrate (i) that differentially tagged PS molecules coimmunoprecipitate, and (ii) that PS N-terminal fragment dimers exist by using a photoaffinity probe based on a transition state analog γ-secretase inhibitor. We propose that γ-secretase contains a PS dimer in its catalytic core, that binding of substrate is at a site separate from the active site, and that substrate is cleaved at the interface of two PS molecules.

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U2 - 10.1073/pnas.1735338100

DO - 10.1073/pnas.1735338100

M3 - Article

C2 - 14566063

AN - SCOPUS:0242331600

SN - 0027-8424

VL - 100

SP - 13075

EP - 13080

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 22

ER -

A presenilin dimer at the core of the γ-secretase enzyme: Insights from parallel analysis of Notch 1 and APP proteolysis

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