A Refined Pharmacophore Identifies Potent 4-Amino-7-chloroquinoline-Based Inhibitors of the Botulinum Neurotoxin Serotype A Metalloprotease

We previously identified structurally diverse small molecule (non-peptidic) inhibitors (SMNPIs) of the botulinum neurotoxin serotype A (BoNT/A) light chain (LC). Of these, several (including antimalarial drugs) contained a 4-amino-7-chloroquinoline (ACQ) substructure and a separate positive ionizabl...

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Bibliographic Details
Published in:Journal of medicinal chemistry 2007-05, Vol.50 (9), p.2127-2136
Main Authors: Burnett, James C, Opsenica, Dejan, Sriraghavan, Kamaraj, Panchal, Rekha G, Ruthel, Gordon, Hermone, Ann R, Nguyen, Tam L, Kenny, Tara A, Lane, Douglas J, McGrath, Connor F, Schmidt, James J, Vennerstrom, Jonathan L, Gussio, Rick, Šolaja, Bogdan A, Bavari, Sina
Format: Article
Language:English
Subjects:
Aminoquinolines - chemical synthesis
Aminoquinolines - chemistry
Analytical, structural and metabolic biochemistry
Binding Sites
Biological and medical sciences
Botulinum Toxins, Type A - antagonists & inhibitors
Enzymes and enzyme inhibitors
Fundamental and applied biological sciences. Psychology
Hydrolases
Medical sciences
Metalloproteases - antagonists & inhibitors
Metalloproteases - chemistry
Miscellaneous
Models, Molecular
Pharmacology. Drug treatments
Protein Binding
Structure-Activity Relationship
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Summary:We previously identified structurally diverse small molecule (non-peptidic) inhibitors (SMNPIs) of the botulinum neurotoxin serotype A (BoNT/A) light chain (LC). Of these, several (including antimalarial drugs) contained a 4-amino-7-chloroquinoline (ACQ) substructure and a separate positive ionizable amine component. The same antimalarials have also been found to interfere with BoNT/A translocation into neurons, via pH elevation of the toxin-mediated endosome. Thus, this structural class of small molecules may serve as dual-function BoNT/A inhibitors. In this study, we used a refined pharmacophore for BoNT/A LC inhibition to identify four new, potent inhibitors of this structural class (IC50's ranged from 3.2 to 17 μM). Molecular docking indicated that the binding modes for the new SMNPIs are consistent with those of other inhibitors that we have identified, further supporting our structure-based pharmacophore. Finally, structural motifs of the new SMNPIs, as well as two structure-based derivatives, were examined for activity, providing valuable information about pharmacophore component contributions to inhibition.
ISSN:0022-2623
1520-4804
DOI:10.1021/jm061446e