Abstract
Amyloid precursor protein cleaving enzyme 1 (BACE1), an aspartyl protease, initiates processing of the amyloid precursor protein (APP) into β-amyloid (Aβ); the peptide likely contributes to development of Alzheimer’s disease (AD). BACE1 is an attractive therapeutic target for AD treatment, but it exhibits other physiological activities and has many other substrates besides APP. Thus, inhibition of BACE1 function may cause adverse side effects. Here, we present a peptide, S1, isolated from a peptide library that selectively inhibits BACE1 hydrolytic activity by binding to the β-proteolytic site on APP and Aβ N-terminal. The S1 peptide significantly reduced Aβ levels in vitro and in vivo and inhibited Aβ cytotoxicity in SH-SY5Y cells. When applied to APPswe/PS1dE9 double transgenic mice by intracerebroventricular injection, S1 significantly improved the spatial memory as determined by the Morris Water Maze, and also attenuated their Aβ burden. These results indicate that the dual-functional peptide S1 may have therapeutic potential for AD by both reducing Aβ generation and inhibiting Aβ cytotoxicity.
Highlights
Accumulation and aggregation of b-amyloid (Ab) likely plays a critical role in Alzheimer’s disease (AD) pathogenesis [1,2]
We report on a peptide that inhibits Ab generation and cytotoxicity, and attenuates memory deficits and decreases Ab burden in AD transgenic mice, by binding to the b-secretase cleavage site of Ab precursor protein (APP) and to the Nterminal of Ab
The cytotoxicity of multimeric aggregates assembled from Ab monomers has been strongly associated with the neurodegenerative pathology, and the cascade of harmful events related to AD [49,50]
Summary
Accumulation and aggregation of b-amyloid (Ab) likely plays a critical role in AD pathogenesis [1,2]. C-secretase cleaves other substrates including Notch, and therapeutic inhibition of c-secretase may lead to toxic side effects, due to the impact on the important signaling pathways and other activities [8]. To avoid these side effects, some csecretase modulators (GSMs) which selectively lower Ab42 without interfering with the physiological function of c-secretase were studied. We report on a peptide that inhibits Ab generation and cytotoxicity, and attenuates memory deficits and decreases Ab burden in AD transgenic mice, by binding to the b-secretase cleavage site of APP and to the Nterminal of Ab
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