Efficient inhibition of the Alzheimer's disease β-secretase by membrane targeting

Lawrence Rajendran; Anja Schneider; Georg Schlechtingen; Sebastian Weidlich; Jonas Ries; Tobias Braxmeier; Petra Schwille; Jörg B. Schulz; Cornelia Schroeder; Mikael Simons; Gary Jennings; Hans Joachim Knölker; Kai Simons

doi:10.1126/science.1156609

Efficient inhibition of the Alzheimer's disease β-secretase by membrane targeting

Lawrence Rajendran, Anja Schneider, Georg Schlechtingen, Sebastian Weidlich, Jonas Ries, Tobias Braxmeier, Petra Schwille, Jörg B. Schulz, Cornelia Schroeder, Mikael Simons, Gary Jennings, Hans Joachim Knölker, Kai Simons

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

230 Scopus citations

Abstract

β-Secretase plays a critical role in β-amyloid formation and thus provides a therapeutic target for Alzheimer's disease. Inhibitor design has usually focused on active-site binding, neglecting the subcellular localization of active enzyme. We have addressed this issue by synthesizing a membrane-anchored version of a β-secretase transition-state inhibitor by linking it to a sterol moiety. Thus, we targeted the inhibitor to active β-secretase found in endosomes and also reduced the dimensionality of the inhibitor, increasing its local membrane concentration. This inhibitor reduced enzyme activity much more efficiently than did the free inhibitor in cultured cells and in vivo. In addition to effectively targeting β-secretase, this strategy could also be used in designing potent drugs against other membrane protein targets.

Original language	English
Pages (from-to)	520-523
Number of pages	4
Journal	Science
Volume	320
Issue number	5875
DOIs	https://doi.org/10.1126/science.1156609
State	Published - 25 Apr 2008
Externally published	Yes

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abstract = "β-Secretase plays a critical role in β-amyloid formation and thus provides a therapeutic target for Alzheimer's disease. Inhibitor design has usually focused on active-site binding, neglecting the subcellular localization of active enzyme. We have addressed this issue by synthesizing a membrane-anchored version of a β-secretase transition-state inhibitor by linking it to a sterol moiety. Thus, we targeted the inhibitor to active β-secretase found in endosomes and also reduced the dimensionality of the inhibitor, increasing its local membrane concentration. This inhibitor reduced enzyme activity much more efficiently than did the free inhibitor in cultured cells and in vivo. In addition to effectively targeting β-secretase, this strategy could also be used in designing potent drugs against other membrane protein targets.",

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AU - Rajendran, Lawrence

AU - Schneider, Anja

AU - Schlechtingen, Georg

AU - Weidlich, Sebastian

AU - Ries, Jonas

AU - Braxmeier, Tobias

AU - Schwille, Petra

AU - Schulz, Jörg B.

AU - Schroeder, Cornelia

AU - Simons, Mikael

AU - Jennings, Gary

AU - Knölker, Hans Joachim

AU - Simons, Kai

PY - 2008/4/25

Y1 - 2008/4/25

N2 - β-Secretase plays a critical role in β-amyloid formation and thus provides a therapeutic target for Alzheimer's disease. Inhibitor design has usually focused on active-site binding, neglecting the subcellular localization of active enzyme. We have addressed this issue by synthesizing a membrane-anchored version of a β-secretase transition-state inhibitor by linking it to a sterol moiety. Thus, we targeted the inhibitor to active β-secretase found in endosomes and also reduced the dimensionality of the inhibitor, increasing its local membrane concentration. This inhibitor reduced enzyme activity much more efficiently than did the free inhibitor in cultured cells and in vivo. In addition to effectively targeting β-secretase, this strategy could also be used in designing potent drugs against other membrane protein targets.

AB - β-Secretase plays a critical role in β-amyloid formation and thus provides a therapeutic target for Alzheimer's disease. Inhibitor design has usually focused on active-site binding, neglecting the subcellular localization of active enzyme. We have addressed this issue by synthesizing a membrane-anchored version of a β-secretase transition-state inhibitor by linking it to a sterol moiety. Thus, we targeted the inhibitor to active β-secretase found in endosomes and also reduced the dimensionality of the inhibitor, increasing its local membrane concentration. This inhibitor reduced enzyme activity much more efficiently than did the free inhibitor in cultured cells and in vivo. In addition to effectively targeting β-secretase, this strategy could also be used in designing potent drugs against other membrane protein targets.

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Efficient inhibition of the Alzheimer's disease β-secretase by membrane targeting

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