Discovery of a Potent, Selective, and Blood-Brain Barrier Permeable Non-nitrocatechol Inhibitor of Catechol‑O‑methyltransferase

Discovery of a Potent, Selective, and Blood-Brain Barrier Permeable Non-nitrocatechol Inhibitor of Catechol‑O‑methyltransferase

A new library of non-nitrocatechol compounds (HetCAMs) was developed and their efficacy was compared to tolcapone, a standard COMT inhibitor for PD. Compound 9 emerged as the most potent inhibitor, showing selective inhibition of brain (IC50 = 24 nM) and liver (IC50 = 81 nM) MB-COMT over liver S-COM...

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Veröffentlicht in:Journal of medicinal chemistry 2024-10, Vol.67 (20), p.18384-18399
Hauptverfasser: Benfeito, Sofia, Albuquerque, Bárbara, Sequeira, Lisa, Lima, Carla, Chavarria, Daniel, Serrão, Paula, Cagide, Fernando, Soares-da-Silva, Patrício, Borges, Fernanda
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Benzophenones - chemistry
Benzophenones - pharmacology
Blood-Brain Barrier - metabolism
Brain - metabolism
Catechol O-Methyltransferase - metabolism
Catechol O-Methyltransferase Inhibitors - chemical synthesis
Catechol O-Methyltransferase Inhibitors - chemistry
Catechol O-Methyltransferase Inhibitors - pharmacokinetics
Catechol O-Methyltransferase Inhibitors - pharmacology
Catechols - chemistry
Catechols - pharmacology
Drug Discovery
Hep G2 Cells
Humans
Liver - metabolism
Nitrophenols - chemistry
Nitrophenols - metabolism
Nitrophenols - pharmacology
Structure-Activity Relationship
Tolcapone
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Zusammenfassung:A new library of non-nitrocatechol compounds (HetCAMs) was developed and their efficacy was compared to tolcapone, a standard COMT inhibitor for PD. Compound 9 emerged as the most potent inhibitor, showing selective inhibition of brain (IC50 = 24 nM) and liver (IC50 = 81 nM) MB-COMT over liver S-COMT (IC50 = 620 nM) isoforms. Although compound 9 presented higher IC50 values than tolcapone, it was more selective for brain MB-COMT than liver S-COMT. Unlike tolcapone, compound 9 is not a tight-binding inhibitor and is less cytotoxic to HepG2 and SK-N-SH cells. Additionally, compound 9 is predicted to cross the blood–brain barrier (BBB) by passive diffusion and chelate divalent metals like Fe­(II) and Cu­(II). The results demonstrate the potential of this rational drug design strategy for developing new CNS-active drug candidates, offering symptom relief via COMT inhibition that can provide a long-term, disease-modifying outcome (chelation of divalent metals) in PD.
ISSN:0022-2623
1520-4804
1520-4804
DOI:10.1021/acs.jmedchem.4c01682