Publication | Open Access
Structure−Activity Relationships of Potent, Selective Inhibitors of Neuronal Nitric Oxide Synthase Based on the 6-Phenyl-2-aminopyridine Structure
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Citations
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References
2004
Year
Selective InhibitorsChemical BiologyMolecular PharmacologyMedicinal ChemistryReactive Nitrogen SpecieNitric Oxide SynthaseNeurochemistryInhibitory ActivityBiochemistryMechanism Of ActionNeuropharmacologyNeuroprotectionPharmacologyNatural SciencesStructure−activity RelationshipsNeuroscience6-Phenyl-2-aminopyridine StructureCentral Nervous SystemFunctional ModelMedicineNitrosative StressDrug DiscoveryNeuropeptides
The synthesis and structure-activity relationships of a series of 6-phenyl-2-aminopyridines that potently and selectively inhibit the neuronal isoform of nitric oxide synthase (nNOS) are described. Compound 14bi from this series exhibits potent in vivo activity in harmaline-induced cGMP formation in rat cerebellum, a functional model of nNOS inhibition, and in the PCP-induced hypermotility model in the rat. These results suggest that 14bi may be a useful reagent for evaluating potential therapeutic applications of nNOS inhibitors in the central nervous system.
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