Multitarget Drug Discovery for Alzheimer's Disease: Triazinones as BACE‐1 and GSK‐3β Inhibitors

Federica Prati; Angela De Simone; Paola Bisignano; Andrea Armirotti; Maria Summa; Daniela Pizzirani; Rita Scarpelli; Daniel I. Pérez; Vincenza Andrisano; Ana Pérez‐Castillo; Barbara Monti; Francesca Massenzio; Letizia Polito; Marco Racchi; Angelo D. Favia; Giovanni Bottegoni; Ana Martı́nez; María Laura Bolognesi; Andrea Cavalli

doi:10.1002/anie.201410456

JOURNAL ARTICLE

Multitarget Drug Discovery for Alzheimer's Disease: Triazinones as BACE‐1 and GSK‐3β Inhibitors

Federica Prati Angela De Simone Paola Bisignano Andrea Armirotti Maria Summa Daniela Pizzirani Rita Scarpelli Daniel I. Pérez Vincenza Andrisano Ana Pérez‐Castillo Barbara Monti Francesca Massenzio Letizia Polito Marco Racchi Angelo D. Favia Giovanni Bottegoni Ana Martı́nez María Laura Bolognesi Andrea Cavalli

Year: 2014 Journal: Angewandte Chemie International Edition Vol: 54 (5)Pages: 1578-1582 Publisher: Wiley

DOI: 10.1002/anie.201410456

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Abstract

Abstract Cumulative evidence strongly supports that the amyloid and tau hypotheses are not mutually exclusive, but concomitantly contribute to neurodegeneration in Alzheimer′s disease (AD). Thus, the development of multitarget drugs which are involved in both pathways might represent a promising therapeutic strategy. Accordingly, reported here in is the discovery of 6‐amino‐4‐phenyl‐3,4‐dihydro‐1,3,5‐triazin‐2(1H)‐ones as the first class of molecules able to simultaneously modulate BACE‐1 and GSK‐3β. Notably, one triazinone showed well‐balanced in vitro potencies against the two enzymes (IC 50 of (18.03±0.01) μ M and (14.67±0.78) μ M for BACE‐1 and GSK‐3β, respectively). In cell‐based assays, it displayed effective neuroprotective and neurogenic activities and no neurotoxicity. It also showed good brain permeability in a preliminary pharmacokinetic assessment in mice. Overall, triazinones might represent a promising starting point towards high quality lead compounds with an AD‐modifying potential.

Keywords:

Neuroprotection Neurodegeneration Neurotoxicity Pharmacology Drug IC50 Drug discovery Chemistry In vitro Disease Neuroscience Biochemistry Medicine Biology Toxicity Internal medicine

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Cholinesterase and Neurodegenerative Diseases

Health Sciences → Medicine → Pharmacology

Computational Drug Discovery Methods

Physical Sciences → Computer Science → Computational Theory and Mathematics

Alzheimer's disease research and treatments

Health Sciences → Medicine → Physiology

Multitarget Drug Discovery for Alzheimer's Disease: Triazinones as BACE‐1 and GSK‐3β Inhibitors

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