2001
Prenatal cocaine exposure increases mesoprefrontal dopamine neuron responsivity to mild stress
Elsworth J, Morrow B, Roth R. Prenatal cocaine exposure increases mesoprefrontal dopamine neuron responsivity to mild stress. Synapse 2001, 42: 80-83. PMID: 11574943, DOI: 10.1002/syn.1102.Peer-Reviewed Original ResearchConceptsPrenatal cocaine exposurePrefrontal cortexCocaine exposureShort-term memory deficitsVentromedial prefrontal cortexShort-term memoryMedial prefrontal cortexDopamine neuronsAdolescent ratsCognitive deficitsMemory deficitsMesoprefrontal dopamine systemPrenatal cocaineMild footshock stressDopamine systemDeficitsFootshock stressNeurobehavioral deficitsDopamine turnoverIntravenous modelRodent modelsBehavioral abnormalitiesFetal developmentMild stressCortex
2000
TMT, a predator odor, elevates mesoprefrontal dopamine metabolic activity and disrupts short-term working memory in the rat
Morrow B, Roth R, Elsworth J. TMT, a predator odor, elevates mesoprefrontal dopamine metabolic activity and disrupts short-term working memory in the rat. Brain Research Bulletin 2000, 52: 519-523. PMID: 10974491, DOI: 10.1016/s0361-9230(00)00290-2.Peer-Reviewed Original ResearchConceptsMedial prefrontal cortexPrefrontal cortexExploratory behaviorSample taskFamiliar objectsNovel objectsMesoprefrontal dopamine neuronsTrimethylthiazolineMemoryPsychological stressTMT exposureObject recognition methodPredator odorSet of objectsCortexElevated serum corticosteroneDopaminergic inputDopaminergic activityBrief exposureDopaminergic innervationSerum corticosteroneDopamine neuronsDopamine metabolismObjectsRecognition methodThe predator odor, TMT, displays a unique, stress-like pattern of dopaminergic and endocrinological activation in the rat
Morrow B, Redmond A, Roth R, Elsworth J. The predator odor, TMT, displays a unique, stress-like pattern of dopaminergic and endocrinological activation in the rat. Brain Research 2000, 864: 146-151. PMID: 10793199, DOI: 10.1016/s0006-8993(00)02174-0.Peer-Reviewed Original ResearchConceptsDopamine metabolismSerum corticosteroneAcute exposureCentral dopamine metabolismNucleus accumbens coreMedial prefrontal cortexFear-inducing behaviorPredator odorCentral effectsAccumbens coreRatsStressful stimuliPrefrontal cortexConditioned fearAltered behaviorControl odorAversive stimuliCorticosteroneMetabolismOpen fieldBiochemical activationUnique patternExposureActivationTMTDivergent effects of putative anxiolytics on stress‐induced Fos expression in the mesoprefrontal system of the rat
Morrow B, Elsworth J, Lee E, Roth R. Divergent effects of putative anxiolytics on stress‐induced Fos expression in the mesoprefrontal system of the rat. Synapse 2000, 36: 143-154. PMID: 10767061, DOI: 10.1002/(sici)1098-2396(200005)36:2<143::aid-syn7>3.0.co;2-h.Peer-Reviewed Original ResearchConceptsVentral tegmental areaFos-LITegmental areaMedial prefrontal cortexPutative anxiolyticsBenzodiazepine agonistsStress-induced Fos-like immunoreactivityPartial agonistStress-induced Fos expressionGlycine/NMDA receptorPrefrontal cortexMesoprefrontal dopamine neuronsPutative anxiolytic agentsTH-LI cellsSaline-treated ratsFos-like immunoreactivityAnxiolytic-like actionFos-LI nucleiWeak partial agonistStress-induced increaseFear-inducing behaviorFootshock paradigmAlpha2 agonistsStress-induced activationDopaminergic neurons