| Literature DB >> 28978478 |
Shinji Tagami1, Kanta Yanagida1, Takashi S Kodama1, Mako Takami2, Naoki Mizuta1, Hiroshi Oyama3, Kouhei Nishitomi3, Yu-Wen Chiu1, Toru Okamoto4, Takeshi Ikeuchi5, Gaku Sakaguchi6, Takashi Kudo7, Yoshiharu Matsuura4, Akio Fukumori1, Masatoshi Takeda1, Yasuo Ihara2, Masayasu Okochi8.
Abstract
γ-secretase inhibitors (GSI) are drugs developed to decrease amyloid-β peptide (Aβ) production by inhibiting intramembranous cleavage of β-amyloid protein precursor (βAPP). However, a large phase 3 trial of semagacestat, a potential non-transition state analog (non-TSA) GSI, in patients with Alzheimer's disease (AD) was terminated due to unexpected aggravation of cognitive deficits and side effects. Here, we show that some semagacestat effects are clearly different from a phenotype caused by a loss of function of presenilins, core proteins in the γ-secretase complex. Semagacestat increases intracellular byproduct peptides, produced along with Aβ through serial γ-cleavage of βAPP, as well as intracellular long Aβ species, in cell-based and in vivo studies of AD model mice. Other potential non-TSA GSIs, but not L685,458, a TSA GSI, have similar effects. Furthermore, semagacestat inhibits release of de novo intramembranous γ-byproducts to the soluble space. Thus, semagacestat is a pseudo-GSI, and therefore, the semagacestat clinical trial did not truly test the Aβ hypothesis.Entities:
Keywords: Alzheimer’s disease; Aβ hypothesis; MK-0752; RO4929097; anti-cancer drugs; avagacetat; clinical trials; semagacestat; γ-byproducts; γ-secretase inhibitors
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Year: 2017 PMID: 28978478 DOI: 10.1016/j.celrep.2017.09.032
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423