Jeroen Knops scite author profile

Proteolytic processing of the amyloid precursor protein (APP) generates amyloid beta (Abeta) peptide, which is thought to be causal for the pathology and subsequent cognitive decline in Alzheimer's disease. Cleavage by beta-secretase at the amino terminus of the Abeta peptide sequence, between residues 671 and 672 of APP, leads to the generation and extracellular release of beta-cleaved soluble APP, and a corresponding cell-associated carboxy-terminal fragment. Cleavage of the C-terminal fragment by gamma-secretase(s) leads to the formation of Abeta. The pathogenic mutation K670M671-->N670L671 at the beta-secretase cleavage site in APP, which was discovered in a Swedish family with familial Alzheimer's disease, leads to increased beta-secretase cleavage of the mutant substrate. Here we describe a membrane-bound enzyme activity that cleaves full-length APP at the beta-secretase cleavage site, and find it to be the predominant beta-cleavage activity in human brain. We have purified this enzyme activity to homogeneity from human brain using a new substrate analogue inhibitor of the enzyme activity, and show that the purified enzyme has all the properties predicted for beta-secretase. Cloning and expression of the enzyme reveals that human brain beta-secretase is a new membrane-bound aspartic proteinase.

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Functional gamma‐secretase inhibitors reduce beta‐amyloid peptide levels in brain

Dovey

John

Anderson

et al. 2001

Journal of Neurochemistry

825

366

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Converging lines of evidence implicate the beta-amyloid peptide (Ab) as causative in Alzheimer's disease. We describe a novel class of compounds that reduce Ab production by functionally inhibiting g-secretase, the activity responsible for the carboxy-terminal cleavage required for Ab production. These molecules are active in both 293 HEK cells and neuronal cultures, and exert their effect upon Ab production without affecting protein secretion, most notably in the secreted forms of the amyloid precursor protein (APP). Oral administration of one of these compounds, N-[N-(3,5-di¯uoro-phenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester, to mice transgenic for human APP V717F reduces brain levels of Ab in a dose-dependent manner within 3 h. These studies represent the ®rst demonstration of a reduction of brain Ab in vivo. Development of such novel functional g-secretase inhibitors will enable a clinical examination of the Ab hypothesis that Ab peptide drives the neuropathology observed in Alzheimer's disease.

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Overexpression of tau in a nonneuronal cell induces long cellular processes.

et al. 1991

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Abstract. The ways in which the various microtubuleassociated proteins (MAPS) contribute to cellular function are unknown beyond the ability of these proteins to modify microtubule dynamics. One member of the MAP family, tau protein, is restricted in its distribution to the axonal compartment of neurons, and has therefore prompted studies that attempt to relate tau function to the generation or maintenance of this structure. Sf9 cells from a moth ovary, when infected with a baculovirus containing a tau cDNA insert, elaborate very long processes . This single gene product expressed in a foreign host cell grossly alters the

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Overexpression of tau in a nonneuronal cell induces long cellular processes

Knops

Kosik

Lee

et al. 1991

Trends in Cell Biology

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Cell-type and Amyloid Precursor Protein-type Specific Inhibition of Aβ Release by Bafilomycin A1, a Selective Inhibitor of Vacuolar ATPases

Knops

Suomensaari

Lee

et al. 1995

Journal of Biological Chemistry

112

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Jeroen Knops

Purification and cloning of amyloid precursor protein β-secretase from human brain

Functional gamma‐secretase inhibitors reduce beta‐amyloid peptide levels in brain

Overexpression of tau in a nonneuronal cell induces long cellular processes.

Overexpression of tau in a nonneuronal cell induces long cellular processes

Cell-type and Amyloid Precursor Protein-type Specific Inhibition of Aβ Release by Bafilomycin A1, a Selective Inhibitor of Vacuolar ATPases

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