BACE inhibition-dependent repair of Alzheimer’s pathophysiology

Aylin D. Keskin; Maja Kekuš; Helmuth Adelsberger; Ulf Neumann; Derya R. Shimshek; Beomjong Song; Benedikt Zott; Tingying Peng; Hans Förstl; Matthias Staufenbiel; Israel Nelken; Bert Sakmann; Arthur Konnerth; Marc Aurel Busche

doi:10.1073/pnas.1708106114

BACE inhibition-dependent repair of Alzheimer’s pathophysiology

Aylin D. Keskin(Technical University of Munich), Maja Kekuš(Technical University of Munich), Helmuth Adelsberger(Technical University of Munich), Ulf Neumann(Novartis (Switzerland)), Derya R. Shimshek(Novartis (Switzerland)), Beomjong Song(Technical University of Munich), Benedikt Zott(Technical University of Munich), Tingying Peng(Helmholtz Zentrum München), Hans Förstl(Technical University of Munich), Matthias Staufenbiel(Hertie Institute for Clinical Brain Research), Israel Nelken(Hebrew University of Jerusalem), Bert Sakmann(Technical University of Munich), Arthur Konnerth(Munich Cluster for Systems Neurology), Marc Aurel Busche(Munich Cluster for Systems Neurology)

Proceedings of the National Academy of Sciences

July 24, 2017

10.1073/pnas.1708106114

Cited by 129Open Access

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Abstract

Significance The accumulation of amyloid-β (Aβ) proteins in the brain contributes to Alzheimer´s disease (AD). Reducing Aβ by inhibiting its production with a β-secretase (BACE) inhibitor represents a novel mechanism for treating AD; however, whether this therapeutic strategy is capable of repairing impaired brain circuits associated with AD is unknown. Here we demonstrate that BACE inhibition is beneficial to all levels of impairment in an AD mouse model: cellular, long-range circuitry, and memory. We provide evidence that the rescue is dependent on the reduction of soluble forms of Aβ surrounding amyloid plaques. These results have mechanistic and therapeutic implications for AD, including Aβ-related memory defects.

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