1993
In vivo assessment of basal and drug‐induced dopamine release in cortical and subcortical regions of the anesthetized primate
Moghaddam B, Berridge C, Goldman‐Rakic P, Bunney B, Roth R. In vivo assessment of basal and drug‐induced dopamine release in cortical and subcortical regions of the anesthetized primate. Synapse 1993, 13: 215-222. PMID: 8497807, DOI: 10.1002/syn.890130304.Peer-Reviewed Original ResearchConceptsExtracellular dopamine levelsBasal extracellular dopamine levelsDopamine levelsPrefrontal cortexPremotor cortexDrug-induced dopamine releaseVivo assessmentExtracellular concentrationNonhuman primatesBasal extracellular concentrationsCaudate-putamen areaFeasibility of microdialysisCortex of primatesMedial prefrontal cortexDorsolateral prefrontal cortexCortical dopamineIntracerebral microdialysisIntravenous administrationNeurological illnessDopamine releaseSubcortical areasCortical areasDopamine projectionsDopamine systemSubcortical regions
1987
Electrophysiological studies on the specificity of the cholecystokinin antagonist proglumide
Chiodo L, Freeman A, Bunney B. Electrophysiological studies on the specificity of the cholecystokinin antagonist proglumide. Brain Research 1987, 410: 205-211. PMID: 3036308, DOI: 10.1016/0006-8993(87)90317-9.Peer-Reviewed Original ResearchConceptsExcitatory effectsInhibitory effectA9 DA neuronsCCK receptor blockadeSelective CCK antagonistsMidbrain dopamine cellsPrefrontal cortical neuronsInhibitory potencyDA neuronsReceptor blockadeChronic treatmentSensorimotor cortexC-terminal octapeptideCCK antagonistsDA cellsSubstance PAPO effectsCortical neuronsDopamine cellsIntravenous administrationSelective antagonistRat CNSProglumideElectrophysiological studiesCholecystokinin
1985
An electrophysiological analysis of the actions of the 3-PPP enantiomers on the nigrostriatal dopamine system
Clark D, Engberg G, Pileblad E, Svensson T, Carlsson A, Freeman A, Bunney B. An electrophysiological analysis of the actions of the 3-PPP enantiomers on the nigrostriatal dopamine system. Naunyn-Schmiedeberg's Archives Of Pharmacology 1985, 329: 344-354. PMID: 4033804, DOI: 10.1007/bf00496366.Peer-Reviewed Original ResearchConceptsPostsynaptic DA receptorsInhibitory actionDA autoreceptorsDA receptorsNeuronal activityDA cell firing rateExtracellular single-unit recordingsCaudate neuronal activityDA neuronal activityGallamine-paralyzed ratsNigrostriatal DA systemNigrostriatal dopamine systemSingle-unit recordingsCell firing rateReticulata neuronsDA agonistsDA cellsIntravenous administrationMajority of cellsDopamine systemN-propylpiperidineUnit recordingsPartial agonistCell activityFiring rateLow doses of apomorphine elicit two opposing influences on dopamine cell electrophysiology
Grace A, Bunney B. Low doses of apomorphine elicit two opposing influences on dopamine cell electrophysiology. Brain Research 1985, 333: 285-298. PMID: 3995296, DOI: 10.1016/0006-8993(85)91582-3.Peer-Reviewed Original ResearchConceptsDA cell firingDA cellsLow dosesInput resistanceDA agonistsReversal potentialStriatonigral pathwayCell firingCell firing rateElectrophysiological actionsApomorphine effectApomorphine administrationSlow depolarizationIntracellular recordingsIntravenous administrationDopamine cellsInhibitory inputsApomorphineStriatal cellsAction potentialsFiring rateAgonistsDosesCell dischargeCell electrophysiology
1984
Evidence for the absence of impulse-regulating somatodendritic and synthesis-modulating nerve terminal autoreceptors on subpopulations of mesocortical dopamine neurons
Chiodo L, Bannon M, Grace A, Roth R, Bunney B. Evidence for the absence of impulse-regulating somatodendritic and synthesis-modulating nerve terminal autoreceptors on subpopulations of mesocortical dopamine neurons. Neuroscience 1984, 12: 1-16. PMID: 6462443, DOI: 10.1016/0306-4522(84)90133-7.Peer-Reviewed Original ResearchConceptsSpikes/sDopamine neuronsPiriform cortexDopamine levelsCaudate nucleusCingulate cortexIntravenous administrationDopamine cellsFiring rateGlyoxylic acid-induced histofluorescenceCatecholamine histofluorescence techniquesMesocortical dopamine neuronsNerve terminal autoreceptorsNigrostriatal dopamine cellsDose-dependent inhibitory responseDopamine agonist apomorphineBasal discharge rateMidbrain dopaminergic neuronsMidbrain dopaminergic systemMean firing rateMidbrain dopamine systemMesocortical neuronsAgonist apomorphineMicroiontophoretic applicationAntidromic activation
1973
ELECTROPHYSIOLOGICAL EFFECTS OF AMPHETAMINE ON DOPAMINERGIC NEURONS
BUNNEY B, AGHAJANIAN G. ELECTROPHYSIOLOGICAL EFFECTS OF AMPHETAMINE ON DOPAMINERGIC NEURONS. 1973, 957-962. DOI: 10.1016/b978-0-08-017922-3.50182-9.Peer-Reviewed Original ResearchDA synthesisDopaminergic neuronsDA cellsElectrophysiological effectsD-AMPLow ejection currentsTyrosine hydroxylase inhibitorIntra-peritoneal administrationCell firing rateDA neuronsDA receptorsDepressant effectOlfactory tubercleEjection currentsIntravenous administrationCaudate nucleusHydroxylase inhibitorPostsynaptic cellFiring rateMinimal responseNeuronsBlockadeAntipsychotic phenothiazinesAdministrationAmphetamine