2012
The tyrosine phosphatase STEP constrains amygdala-dependent memory formation and neuroplasticity
Olausson P, Venkitaramani D, Moran T, Salter M, Taylor J, Lombroso P. The tyrosine phosphatase STEP constrains amygdala-dependent memory formation and neuroplasticity. Neuroscience 2012, 225: 1-8. PMID: 22885232, PMCID: PMC3725644, DOI: 10.1016/j.neuroscience.2012.07.069.Peer-Reviewed Original ResearchMeSH KeywordsAmygdalaAnalysis of VarianceAnimalsBiophysicsConditioning, OperantElectric StimulationExcitatory Postsynaptic PotentialsFearMaleMAP Kinase Signaling SystemMemoryMiceMice, Inbred C57BLMice, TransgenicNeuronal PlasticityPatch-Clamp TechniquesProtein Tyrosine Phosphatases, Non-ReceptorReinforcement ScheduleReinforcement, PsychologyConceptsSynaptic plasticityExperience-dependent synaptic plasticityAspartic acid (NMDA) receptorsMemory formationLong-term potentiationAdult neuroplasticityAmygdala-dependent memory formationPharmacological treatmentKO miceExperience-induced neuroplasticityTyrosine phosphatase STEPNR2B subunitLateral amygdalaBrain regionsTyrosine kinase FynAcid receptorsStriatal-enriched protein tyrosine phosphataseNeuroplasticityMiceERK phosphorylationReceptor internalizationERK signalingKinase 1/2Detectable expressionSTEP KO mice
2000
Role for dopamine in the behavioral functions of the prefrontal corticostriatal system: implications for mental disorders and psychotropic drug action
Jentsch J, Roth R, Taylor J. Role for dopamine in the behavioral functions of the prefrontal corticostriatal system: implications for mental disorders and psychotropic drug action. Progress In Brain Research 2000, 126: 433-453. PMID: 11105661, DOI: 10.1016/s0079-6123(00)26028-7.Peer-Reviewed Original ResearchMeSH KeywordsAmphetaminesAmygdalaAnimalsBehaviorBrain MappingCentral Nervous System StimulantsCognitionCorpus StriatumDepressionDopamineDopamine AgonistsEmotionsHaplorhiniHumansLearningLimbic SystemMammalsMemoryMental DisordersNeural PathwaysNeurotransmitter AgentsNucleus AccumbensPhencyclidinePrefrontal CortexPsychotropic DrugsReceptors, NeurotransmitterRewardSchizophreniaSubstance-Related DisordersConceptsForebrain sitesPsychotropic drug actionPrecise anatomical sitesRole of dopamineDopaminergic dysfunctionDopaminergic transmissionDopaminergic functionDopamine neuronsDopaminergic responseReward-related stimuliCorticolimbic circuitsChronic activationDopaminergic activationStriatal regionsAfferent controlAnatomical sitesCorticostriatal systemMental disordersNeuropsychiatric disordersNeuromodulatory systemsPersistent neuroadaptationsDrug actionBehavioral functionsCellular mechanismsDopamine
1997
Supranormal Stimulation of D1 Dopamine Receptors in the Rodent Prefrontal Cortex Impairs Spatial Working Memory Performance
Zahrt J, Taylor J, Mathew R, Arnsten A. Supranormal Stimulation of D1 Dopamine Receptors in the Rodent Prefrontal Cortex Impairs Spatial Working Memory Performance. Journal Of Neuroscience 1997, 17: 8528-8535. PMID: 9334425, PMCID: PMC6573725, DOI: 10.1523/jneurosci.17-21-08528.1997.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBenzazepinesDopamineDopamine AgonistsDopamine AntagonistsInfusions, ParenteralMaleMaze LearningMemoryModels, NeurologicalModels, PsychologicalPrefrontal CortexPsychomotor PerformanceRatsRats, Sprague-DawleyReceptors, Dopamine D1Receptors, N-Methyl-D-AspartateSpatial BehaviorStress, PsychologicalConceptsD1 receptor stimulationPrefrontal cortexReceptor stimulationSKF 81297SCH 23390D1 receptorsSupranormal stimulationPFC of ratsD1 receptor mechanismsDA receptor stimulationDose-related impairmentD1 receptor antagonistD1 receptor agonistD1 dopamine receptorsDelayed-alternation performanceMemory functionRecent electrophysiological studiesSpatial Working Memory PerformanceReceptor antagonistReceptor agonistDopamine receptorsReceptor mechanismsElectrophysiological studiesHigh dosesDrug efficacy