Primary Amino Acid Derivatives: Compounds with Anticonvulsant and Neuropathic Pain Protection Activities

Pharmacological management remains the primary method to treat epilepsy and neuropathic pain. We have advanced a novel class of anticonvulsants termed functionalized amino acids (FAAs). In this study, we examine FAA derivatives from which the terminal acetyl moiety was removed and termed these compo...

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Bibliographic Details
Published in:Journal of medicinal chemistry 2011-07, Vol.54 (13), p.4815-4830
Main Authors: King, Amber M, Salomé, Christophe, Dinsmore, Jason, Salomé-Grosjean, Elise, De Ryck, Marc, Kaminski, Rafal, Valade, Anne, Kohn, Harold
Format: Article
Language:English
Subjects:
Amino Acids - chemical synthesis
Amino Acids - chemistry
Amino Acids - pharmacology
Analgesics - chemical synthesis
Analgesics - chemistry
Analgesics - pharmacology
Animals
Anticonvulsants - chemical synthesis
Anticonvulsants - chemistry
Anticonvulsants - pharmacology
Convulsants
Electroshock
Formaldehyde
Male
Mice
Neuralgia - chemically induced
Neuralgia - drug therapy
Pentylenetetrazole
Rats
Rats, Sprague-Dawley
Seizures - drug therapy
Seizures - etiology
Stereoisomerism
Structure-Activity Relationship
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Summary:Pharmacological management remains the primary method to treat epilepsy and neuropathic pain. We have advanced a novel class of anticonvulsants termed functionalized amino acids (FAAs). In this study, we examine FAA derivatives from which the terminal acetyl moiety was removed and termed these compounds primary amino acid derivatives (PAADs). Twenty-seven PAADs were prepared; the central C(2) R-substituent was varied, including C(2) stereochemistry, and the compounds were tested in rodent models of seizures and neuropathic pain. C(2)-Hydrocarbon N-benzylamide PAADs were potent anticonvulsants and excellent anticonvulsant activity (mice, ip; rat, po) was observed for C(2) R-substituted PAADs in which the R group was ethyl, isopropyl, or tert-butyl, and the C(2) stereochemistry conformed to the d-amino acid configuration ((R)-stereoisomer). These values surpassed the activities of several clinical antiepileptic drugs. The C(2) (R)-ethyl and C(2) (R)-isopropyl PAADs also displayed excellent activities in the mouse (ip) formalin neuropathic pain model. Significantly, unlike the FAA structure–activity relationship, PAAD anticonvulsant activity increased upon substitution of a methylene unit for a heteroatom in the R-substituent that was one atom removed from the C(2) site, suggesting that these PAADs function by a different pathway than FAAs.
ISSN:0022-2623
1520-4804
DOI:10.1021/jm2004305