1998
Vigabatrin enhances promoted release of GABA in neonatal rat optic nerve
Yee J, Agulian S, Kocsis J. Vigabatrin enhances promoted release of GABA in neonatal rat optic nerve. Epilepsy Research 1998, 29: 195-200. PMID: 9551781, DOI: 10.1016/s0920-1211(97)00086-7.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornAnticonvulsantsAstrocytesAxonsBicucullineCarrier ProteinsGABA Plasma Membrane Transport ProteinsGamma-Aminobutyric AcidIn Vitro TechniquesMembrane PotentialsMembrane ProteinsMembrane Transport ProteinsModels, NeurologicalNipecotic AcidsOptic NerveOrganic Anion TransportersPotassium ChlorideProlineRatsRats, WistarReceptors, GABA-ATime FactorsVigabatrinConceptsRelease of GABAGABA levelsNipecotic acidNeonatal rat optic nerveGABA transporter inhibitorOptic nerve axonsRat optic nerveOptic nerve astrocytesEnzyme GABA transaminaseGABA transaminase activityFree GABA levelsOptic nerveAntiepileptic drugsNO-711GABA transporterNerve axonsTransaminase activityGABA transaminaseVigabatrinTransporter inhibitorsGABADepolarizationGreater releaseElevationReleaseA summary of mechanistic hypotheses of gabapentin pharmacology
Taylor C, Gee N, Su T, Kocsis J, Welty D, Brown J, Dooley D, Boden P, Singh L. A summary of mechanistic hypotheses of gabapentin pharmacology. Epilepsy Research 1998, 29: 233-249. PMID: 9551785, DOI: 10.1016/s0920-1211(97)00084-3.Peer-Reviewed Original ResearchConceptsAmyotrophic lateral sclerosisNon-vesicular GABA releaseCellular mechanismsVoltage-sensitive Ca2Specific amino acid transportersGabapentin bindsGABA releaseNeuronal deathElectrophysiology resultsAnticonvulsant drugsLateral sclerosisNeuroprotective activityNeurobehavioral actionsPharmacological actionsGabapentinAnimal modelsHuman whole bloodBrain tissueMonoamine neurotransmittersAmino acid transportersWhole bloodAcid transportersAuxiliary subunitsPharmacologyRate of synthesis
1994
Retinal ganglion cells express a cGMP-gated cation conductance activatable by nitric oxide donors
Ahmad I, Leinders-Zufall T, Kocsis J, Shepherd G, Zufall F, Barnstable C. Retinal ganglion cells express a cGMP-gated cation conductance activatable by nitric oxide donors. Neuron 1994, 12: 155-165. PMID: 7507337, DOI: 10.1016/0896-6273(94)90160-0.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-3-isobutylxanthine8-Bromo Cyclic Adenosine MonophosphateAnimalsAnimals, NewbornBase SequenceCells, CulturedCyclic GMPCyclic Nucleotide-Gated Cation ChannelsCysteineDNA PrimersElectric ConductivityGene ExpressionIn Situ HybridizationIon ChannelsMembrane PotentialsModels, NeurologicalMolecular Sequence DataNitric OxideNitroprussidePolymerase Chain ReactionRatsRats, WistarRetinal Ganglion CellsRetinal Rod Photoreceptor CellsS-NitrosothiolsTranscription, GeneticConceptsRetinal ganglion cellsGanglion cellsWhole-cell patch-clamp recordingsRat retinal ganglion cellsNitric oxide donor sodium nitroprussideCation channelsGanglion cell activityPatch-clamp recordingsCation conductanceNitric oxide donorDonor sodium nitroprussideNonselective cation channelsAmacrine cellsSodium nitroprussideOxide donorPhosphodiesterase inhibitorCell activityPolymerase chain reaction amplificationNitric oxideChain reaction amplificationReversal potentialOutward rectificationRod photoreceptorsCGMPS-nitrosocysteine
1982
Conduction of trains of impulses in uniform myelinated fibers: Computed dependence on stimulus frequency
Wood S, Waxman S, Kocsis J. Conduction of trains of impulses in uniform myelinated fibers: Computed dependence on stimulus frequency. Neuroscience 1982, 7: 423-430. PMID: 7078731, DOI: 10.1016/0306-4522(82)90276-7.Peer-Reviewed Original Research
1979
Dependence of refractory period measurements on conduction distance: A computer simulation analysis
Waxman S, Kocsis J, Brill M, Swadlow H. Dependence of refractory period measurements on conduction distance: A computer simulation analysis. Clinical Neurophysiology 1979, 47: 717-724. PMID: 91501, DOI: 10.1016/0013-4694(79)90299-2.Peer-Reviewed Original Research