Regulation of β-amyloid secretion by FE65, an amyloid protein precursor-binding protein

Shasta L. Sabo; Lorene M. Lanier; Annat F. Ikin; Olga Khorkova; Sudhir Sahasrabudhe; Paul Greengard; Joseph D. Buxbaum

doi:10.1074/jbc.274.12.7952

Regulation of β-amyloid secretion by FE65, an amyloid protein precursor-binding protein

Shasta L. Sabo, Lorene M. Lanier, Annat F. Ikin, Olga Khorkova, Sudhir Sahasrabudhe, Paul Greengard, Joseph D. Buxbaum

Neuroscience

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198 Scopus citations

Abstract

The principal component of Alzheimer's amyloid plaques, Aβ, derives from proteolytic processing of the Alzheimer's amyloid protein precursor (APP). FE65 is a brain-enriched protein that binds to APP. Although several laboratories have characterized the APr-FE65 interaction in vitro, the possible relevance of this interaction to Alzheimer's disease has remained unclear. We demonstrate here that APP and FE65 co-localize in the endoplasmic reticulum/Golgi and possibly in endosomes. Moreover, FE65 increases translocation of APP to the cell surface, as well as both αAPP(s) and Aβ secretion. The dramatic (4-fold) FE65-dependent increase in Aβ secretion suggests that agents which inhibit the interaction of FE65 with APP might reduce Aβ secretion in the brain and therefore be useful for preventing or slowing amyloid plaque formation.

Original language	English (US)
Pages (from-to)	7952-7957
Number of pages	6
Journal	Journal of Biological Chemistry
Volume	274
Issue number	12
DOIs	https://doi.org/10.1074/jbc.274.12.7952
State	Published - Mar 19 1999

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title = "Regulation of β-amyloid secretion by FE65, an amyloid protein precursor-binding protein",

abstract = "The principal component of Alzheimer's amyloid plaques, Aβ, derives from proteolytic processing of the Alzheimer's amyloid protein precursor (APP). FE65 is a brain-enriched protein that binds to APP. Although several laboratories have characterized the APr-FE65 interaction in vitro, the possible relevance of this interaction to Alzheimer's disease has remained unclear. We demonstrate here that APP and FE65 co-localize in the endoplasmic reticulum/Golgi and possibly in endosomes. Moreover, FE65 increases translocation of APP to the cell surface, as well as both αAPP(s) and Aβ secretion. The dramatic (4-fold) FE65-dependent increase in Aβ secretion suggests that agents which inhibit the interaction of FE65 with APP might reduce Aβ secretion in the brain and therefore be useful for preventing or slowing amyloid plaque formation.",

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AU - Sabo, Shasta L.

AU - Lanier, Lorene M.

AU - Ikin, Annat F.

AU - Khorkova, Olga

AU - Sahasrabudhe, Sudhir

AU - Greengard, Paul

AU - Buxbaum, Joseph D.

PY - 1999/3/19

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N2 - The principal component of Alzheimer's amyloid plaques, Aβ, derives from proteolytic processing of the Alzheimer's amyloid protein precursor (APP). FE65 is a brain-enriched protein that binds to APP. Although several laboratories have characterized the APr-FE65 interaction in vitro, the possible relevance of this interaction to Alzheimer's disease has remained unclear. We demonstrate here that APP and FE65 co-localize in the endoplasmic reticulum/Golgi and possibly in endosomes. Moreover, FE65 increases translocation of APP to the cell surface, as well as both αAPP(s) and Aβ secretion. The dramatic (4-fold) FE65-dependent increase in Aβ secretion suggests that agents which inhibit the interaction of FE65 with APP might reduce Aβ secretion in the brain and therefore be useful for preventing or slowing amyloid plaque formation.

AB - The principal component of Alzheimer's amyloid plaques, Aβ, derives from proteolytic processing of the Alzheimer's amyloid protein precursor (APP). FE65 is a brain-enriched protein that binds to APP. Although several laboratories have characterized the APr-FE65 interaction in vitro, the possible relevance of this interaction to Alzheimer's disease has remained unclear. We demonstrate here that APP and FE65 co-localize in the endoplasmic reticulum/Golgi and possibly in endosomes. Moreover, FE65 increases translocation of APP to the cell surface, as well as both αAPP(s) and Aβ secretion. The dramatic (4-fold) FE65-dependent increase in Aβ secretion suggests that agents which inhibit the interaction of FE65 with APP might reduce Aβ secretion in the brain and therefore be useful for preventing or slowing amyloid plaque formation.

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Regulation of β-amyloid secretion by FE65, an amyloid protein precursor-binding protein

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