Chromeno[3,4- b ]xanthones as First-in-Class AChE and Aβ Aggregation Dual-Inhibitors

Alzheimer's disease (AD) is a complex multifactorial disorder, mainly characterized by the progressive loss of memory and cognitive, motor, and functional capacity. The absence of effective therapies available for AD alongside the consecutive failures in the central nervous system (CNS) drug de...

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Veröffentlicht in:	International journal of molecular sciences 2021-04, Vol.22 (8), p.4145
Hauptverfasser:	Malafaia, Daniela, Oliveira, Ana, Fernandes, Pedro A, Ramos, Maria J, Albuquerque, Hélio M T, Silva, Artur M S
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Sprache:	eng
Schlagworte:	Acetylcholinesterase Acetylcholinesterase - chemistry Acetylcholinesterase - metabolism Alzheimer's disease Amyloid - chemistry Amyloid - drug effects Amyloid - metabolism Binding Sites Central nervous system Chemical bonds Cholinesterase Inhibitors - chemical synthesis Cholinesterase Inhibitors - pharmacology Chromones - chemistry Drug development Enzymes Humans Hydrogen bonding Hydrogen bonds Inhibitors Ligands Molecular docking Neuroprotective Agents - chemical synthesis Neuroprotective Agents - pharmacology Older people Peptides Protein Binding Protein Multimerization Proteins Residues Xanthones - chemistry β-Amyloid
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description	Alzheimer's disease (AD) is a complex multifactorial disorder, mainly characterized by the progressive loss of memory and cognitive, motor, and functional capacity. The absence of effective therapies available for AD alongside the consecutive failures in the central nervous system (CNS) drug development has been motivating the search for new disease-modifying therapeutic strategies for this disease. To address this issue, the multitarget directed ligands (MTDLs) are emerging as a therapeutic alternative to target the multiple AD-related factors. Following this concept, herein we describe the design, synthesis, and biological evaluation of a family of chromeno[3,4- ]xanthones as well as their ( )-2-[2-(propargyloxy)styryl]chromone precursors, as first-in-class acetylcholinesterase (AChE) and β-amyloid (Aβ) aggregation dual-inhibitors. Compounds and emerged as well-balanced dual-target inhibitors, with IC values of 3.9 and 2.9 μM for AChE and inhibitory percentages of 70 and 66% for Aβ aggregation, respectively. The molecular docking showed that most of the compounds bound to AChE through hydrogen bonds with residues of the catalytic triad and π-stacking interactions between the main scaffold and the aromatic residues present in the binding pocket. The interesting well-balanced activities of these compounds makes them interesting templates for the development of new multitarget compounds for AD.
doi_str_mv	10.3390/ijms22084145
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The molecular docking showed that most of the compounds bound to AChE through hydrogen bonds with residues of the catalytic triad and π-stacking interactions between the main scaffold and the aromatic residues present in the binding pocket. 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subjects	Acetylcholinesterase Acetylcholinesterase - chemistry Acetylcholinesterase - metabolism Alzheimer's disease Amyloid - chemistry Amyloid - drug effects Amyloid - metabolism Binding Sites Central nervous system Chemical bonds Cholinesterase Inhibitors - chemical synthesis Cholinesterase Inhibitors - pharmacology Chromones - chemistry Drug development Enzymes Humans Hydrogen bonding Hydrogen bonds Inhibitors Ligands Molecular docking Neuroprotective Agents - chemical synthesis Neuroprotective Agents - pharmacology Older people Peptides Protein Binding Protein Multimerization Proteins Residues Xanthones - chemistry β-Amyloid
title	Chromeno[3,4- b ]xanthones as First-in-Class AChE and Aβ Aggregation Dual-Inhibitors
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