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Design and synthesis of novel tacrine-indole hybrids as potential multitarget-directed ligands for the treatment of Alzheimer's disease.


ABSTRACT: The authors report on the synthesis and biological evaluation of new compounds whose structure combines tacrine and indole moieties. Tacrine-indole heterodimers were designed to inhibit cholinesterases and β-amyloid formation, and to cross the blood-brain barrier. The most potent new acetylcholinesterase inhibitors were compounds 3c and 4d (IC50 = 25 and 39 nM, respectively). Compound 3c displayed considerably higher selectivity for acetylcholinesterase relative to human plasma butyrylcholinesterase in comparison to compound 4d (selectivity index: IC50 [butyrylcholinesterase]/IC50 [acetylcholinesterase] = 3 and 0.6, respectively). Furthermore, compound 3c inhibited β-amyloid-dependent amyloid nucleation in the yeast-based prion nucleation assay and displayed no dsDNA destabilizing interactions with DNA. Compounds 3c and 4d displayed a high probability of crossing the blood-brain barrier. The results support the potential of 3c for future development as a dual-acting therapeutic agent in the prevention and/or treatment of Alzheimer's disease.

SUBMITTER: Hamulakova S 

PROVIDER: S-EPMC8488533 | biostudies-literature | 2021 May

REPOSITORIES: biostudies-literature

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Design and synthesis of novel tacrine-indole hybrids as potential multitarget-directed ligands for the treatment of Alzheimer's disease.

Hamulakova Slavka S   Kudlickova Zuzana Z   Janovec Ladislav L   Mezencev Roman R   Deckner Zachery J ZJ   Chernoff Yury O YO   Janockova Jana J   Ihnatova Veronika V   Bzonek Petr P   Novakova Nikola N   Hepnarova Vendula V   Hrabinova Martina M   Jun Daniel D   Korabecny Jan J   Soukup Ondrej O   Kuca Kamil K  

Future medicinal chemistry 20210408 9


The authors report on the synthesis and biological evaluation of new compounds whose structure combines tacrine and indole moieties. Tacrine-indole heterodimers were designed to inhibit cholinesterases and β-amyloid formation, and to cross the blood-brain barrier. The most potent new acetylcholinesterase inhibitors were compounds <b>3c</b> and <b>4d</b> (IC<sub>50</sub> = 25 and 39 nM, respectively). Compound <b>3c</b> displayed considerably higher selectivity for acetylcholinesterase relative t  ...[more]

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