Featured Publications
Dysregulation of Decision Making Related to Metabotropic Glutamate 5, but Not Midbrain D3, Receptor Availability Following Cocaine Self-administration in Rats
Groman SM, Hillmer AT, Liu H, Fowles K, Holden D, Morris ED, Lee D, Taylor JR. Dysregulation of Decision Making Related to Metabotropic Glutamate 5, but Not Midbrain D3, Receptor Availability Following Cocaine Self-administration in Rats. Biological Psychiatry 2020, 88: 777-787. PMID: 32826065, PMCID: PMC8935943, DOI: 10.1016/j.biopsych.2020.06.020.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCocaineCocaine-Related DisordersDecision MakingGlutamic AcidMesencephalonRatsSelf AdministrationConceptsCocaine-dependent individualsProbabilistic reversalRelapse-like behaviorTest of motivationReceptor availabilityPersistent drug useMetabotropic glutamate 5Neural mechanismsCompulsive patternsDecision-making processDrug-induced adaptationsSelective impairmentDrug useWeeks of abstinenceCocaine takingCocaine Self-AdministrationBrain regionsDegree of disruptionDays of cocaineAdult male ratsCocaine-induced increasesCocaine-induced changesDrug-induced alterationsRobust alterationsPositron emission tomography
1998
Upregulation of striatal D2 receptors in the MPTP-treated vervet monkey is reversed by grafts of fetal ventral mesencephalon: an autoradiographic study
Elsworth J, Brittan M, Taylor J, Sladek J, Redmond D, Innis R, Zea-Ponce Y, Roth R. Upregulation of striatal D2 receptors in the MPTP-treated vervet monkey is reversed by grafts of fetal ventral mesencephalon: an autoradiographic study. Brain Research 1998, 795: 55-62. PMID: 9622593, DOI: 10.1016/s0006-8993(98)00252-2.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsAutoradiographyBenzofuransBrain Tissue TransplantationChlorocebus aethiopsCorpus StriatumDisease Models, AnimalDopamine AgentsFetal Tissue TransplantationImage Processing, Computer-AssistedIodine RadioisotopesMesencephalonParkinson Disease, SecondaryRadioligand AssayReceptors, Dopamine D2Up-RegulationConceptsFetal ventral mesencephalonD2 receptor bindingVentral mesencephalonDorsal striatumAutoradiographic studyDopamine uptake site densityPostsynaptic dopamine receptor activationVentral striatumDopamine concentrationsStriatal D2 receptor bindingReceptor bindingD2 receptor upregulationPostsynaptic dopamine transmissionTetrahydropyridine-treated monkeysStriatal D2 receptorsDopamine receptor activationPrevious autoradiographic studiesAfrican green monkeysDonor neuronsIntrastriatal graftingParkinsonian primatesNeural transplantationReceptor upregulationStriatal circuitryMotor functionPattern of synaptophysin immunoreactivity within mesencephalic grafts following transplantation in a parkinsonian primate model
Sortwell C, Blanchard B, Collier T, Elsworth J, Taylor J, Roth R, Redmond D, Sladek J. Pattern of synaptophysin immunoreactivity within mesencephalic grafts following transplantation in a parkinsonian primate model. Brain Research 1998, 791: 117-124. PMID: 9593853, DOI: 10.1016/s0006-8993(98)00086-9.Peer-Reviewed Original ResearchConceptsGraft-host interactionsMesencephalic graftsFunctional synapsesTyrosine hydroxylaseCerebellar tissuePericellular arraysEmbryonic cerebellar tissueEmbryonic ventral mesencephalonGrafted dopamine neuronsNerve terminal differentiationTH-positive neuronsStriatum of MPTPEnzyme tyrosine hydroxylaseSynthetic enzyme tyrosine hydroxylaseAfrican green monkeysNeurochemical subtypesStriatal portionDA neuronsSynaptophysin immunoreactivityVentral mesencephalonGraft typeDopamine neuronsPrimate modelStriatal targetsSynaptic remodeling
1997
Metabolic energy capacity of dopaminergic grafts and the implanted striatum in parkinsonian nonhuman primates as visualized with cytochrome oxidase histochemistry
Collier T, Redmond D, Roth R, Elsworth J, Taylor J, Sladek J. Metabolic energy capacity of dopaminergic grafts and the implanted striatum in parkinsonian nonhuman primates as visualized with cytochrome oxidase histochemistry. Cell Transplantation 1997, 6: 135-140. DOI: 10.1016/s0963-6897(97)00003-1.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsBrain Tissue TransplantationChlorocebus aethiopsCorpus StriatumDopamineElectron Transport Complex IVEnergy MetabolismFetal Tissue TransplantationGestational AgeImmunohistochemistryMesencephalonNeuronsParkinson Disease, SecondaryTyrosine 3-MonooxygenaseConceptsDA neuronsEmbryonic ventral mesencephalic tissueParkinsonian nonhuman primatesStriatum of DATyrosine hydroxylase immunocytochemistryVentral mesencephalic tissueVentral mesencephalic graftsCytochrome oxidase histochemistryCytochrome oxidase stainingMitochondrial enzyme cytochrome oxidaseLocal energy metabolismActive innervationBilateral graftsNeuron contentDopaminergic graftsMesencephalic graftsMesencephalic tissueHost brainBrain metabolismEnzyme cytochrome oxidaseCO stainingTissue transplantsGraftMetabolic activityNonhuman primatesMetabolic Energy Capacity of Dopaminergic Grafts and the Implanted Striatum in Parkinsonian Nonhuman Primates as Visualized with Cytochrome Oxidase Histochemistry
Collier T, Redmond D, Roth R, Elsworth J, Taylor J, Sladek J. Metabolic Energy Capacity of Dopaminergic Grafts and the Implanted Striatum in Parkinsonian Nonhuman Primates as Visualized with Cytochrome Oxidase Histochemistry. Cell Transplantation 1997, 6: 135-140. PMID: 9142445, DOI: 10.1177/096368979700600207.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsBrain Tissue TransplantationChlorocebus aethiopsCorpus StriatumDopamineElectron Transport Complex IVEnergy MetabolismFetal Tissue TransplantationGestational AgeImmunohistochemistryMesencephalonNeuronsParkinson Disease, SecondaryTyrosine 3-MonooxygenaseConceptsDA neuronsEmbryonic ventral mesencephalic tissueParkinsonian nonhuman primatesStriatum of DATyrosine hydroxylase immunocytochemistryVentral mesencephalic tissueVentral mesencephalic graftsBrain energy metabolismCytochrome oxidase histochemistryCytochrome oxidase stainingMitochondrial enzyme cytochrome oxidaseLocal energy metabolismEnergy metabolismActive innervationBilateral graftsNeuron contentDopaminergic graftsMesencephalic graftsMesencephalic tissueHost brainEnzyme cytochrome oxidaseCO stainingTissue transplantsGraftMetabolic activity
1996
Early gestational mesencephalon grafts, but not later gestational mesencephalon, cerebellum or sham grafts, increase dopamine in caudate nucleus of MPTP-treated monkeys
Elsworth J, Sladek J, Taylor J, Collier T, Redmond D, Roth R. Early gestational mesencephalon grafts, but not later gestational mesencephalon, cerebellum or sham grafts, increase dopamine in caudate nucleus of MPTP-treated monkeys. Neuroscience 1996, 72: 477-484. PMID: 8737417, DOI: 10.1016/0306-4522(95)00564-1.Peer-Reviewed Original ResearchConceptsFetal ventral mesencephalonVentral mesencephalonCaudate nucleusGraft siteDopamine neuronsDopamine concentrationsBehavioral recoveryTyrosine hydroxylase-positive neuronsHomovanillic acid/dopamine ratioFetal dopamine neuronsGrafted dopamine neuronsIntrastriatal transplantsParkinsonian primatesGrafted neuronsIntrastriatal transplantationGestational ageTransplant proceduresDopamine ratioDopamine productionSignificant elevationNucleus accumbensDopamine systemSham graftsGraftBrain regionsRestoration of dopamine transporter density in the striatum of fetal ventral mesencephalon-grafted, but not sham-grafted, MPTP-treated parkinsonian monkeys
Elsworth J, Brittan M, Taylor J, Sladek J, Al-Tikriti M, Zea-Ponce Y, Innis R, Redmond D, Roth R. Restoration of dopamine transporter density in the striatum of fetal ventral mesencephalon-grafted, but not sham-grafted, MPTP-treated parkinsonian monkeys. Cell Transplantation 1996, 5: 315-325. DOI: 10.1016/0963-6897(95)02034-9.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsAutoradiographyBrain Tissue TransplantationCarrier ProteinsChlorocebus aethiopsCocaineDopamineDopamine Plasma Membrane Transport ProteinsFetal Tissue TransplantationHomovanillic AcidIodine RadioisotopesMaleMembrane GlycoproteinsMembrane Transport ProteinsMesencephalonNeostriatumNerve Tissue ProteinsParkinson Disease, SecondaryProtein BindingPutamenConceptsFetal dopamine neuronsDopamine transporter densityDopamine neuronsParkinsonian monkeysBehavioral recoveryTransporter densityCaudate nucleusNeural graftingDopamine systemImplantation procedureDopamine concentrationsFull behavioral recoveryPutamen of MPTPStriatal dopamine deficiencyStriatal dopamine concentrationsDopamine-depleted striatumStriatum of MPTPDopamine depletionVentral mesencephalonDopamine deficiencyMotor abnormalitiesDopaminergic innervationUseful treatmentStriatal nucleiAdult striatumRestoration of Dopamine Transporter Density in the Striatum of Fetal Ventral Mesencephalon-Grafted, but not Sham-Grafted, Mptp-Treated Parkinsonian Monkeys
Elsworth J, Brittan M, Taylor J, Sladek J, Al-Tikriti M, Zea-Ponce Y, Innis R, Redmond D, Roth R. Restoration of Dopamine Transporter Density in the Striatum of Fetal Ventral Mesencephalon-Grafted, but not Sham-Grafted, Mptp-Treated Parkinsonian Monkeys. Cell Transplantation 1996, 5: 315-325. PMID: 8689042, DOI: 10.1177/096368979600500220.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsAutoradiographyBrain Tissue TransplantationCarrier ProteinsChlorocebus aethiopsCocaineDopamineDopamine Plasma Membrane Transport ProteinsFetal Tissue TransplantationHomovanillic AcidIodine RadioisotopesMaleMembrane GlycoproteinsMembrane Transport ProteinsMesencephalonNeostriatumNerve Tissue ProteinsParkinson Disease, SecondaryProtein BindingPutamenConceptsFetal dopamine neuronsDopamine transporter densityDopamine neuronsParkinsonian monkeysBehavioral recoveryTransporter densityCaudate nucleusNeural graftingDopamine systemImplantation procedureDopamine concentrationsFull behavioral recoveryPutamen of MPTPStriatal dopamine deficiencyStriatal dopamine concentrationsDopamine-depleted striatumStriatum of MPTPDopamine depletionVentral mesencephalonDopamine deficiencyMotor abnormalitiesDopaminergic innervationUseful treatmentStriatal nucleiAdult striatum
1993
Can Graft-Derived Neurotrophic Activity Be Used to Direct Axonal Outgrowth of Grafted Dopamine Neurons for Circuit Reconstruction in Primates?
Sladek J, Collier T, Elsworth J, Taylor J, Roth R, Redmond D. Can Graft-Derived Neurotrophic Activity Be Used to Direct Axonal Outgrowth of Grafted Dopamine Neurons for Circuit Reconstruction in Primates? Experimental Neurology 1993, 124: 134-139. PMID: 8282070, DOI: 10.1006/exnr.1993.1184.Peer-Reviewed Original ResearchFetal Dopamine Cell Survival after Transplantation Is Dramatically Improved at a Critical Donor Gestational Age in Nonhuman Primates
Sladek J, Elsworth J, Roth R, Evans L, Collier T, Cooper S, Taylor J, Redmond D. Fetal Dopamine Cell Survival after Transplantation Is Dramatically Improved at a Critical Donor Gestational Age in Nonhuman Primates. Experimental Neurology 1993, 122: 16-27. PMID: 8101820, DOI: 10.1006/exnr.1993.1103.Peer-Reviewed Original ResearchConceptsDopamine neuronsCaudate nucleusMesencephalic dopamine cell groupsTyrosine hydroxylase-positive neuronsTissue dopamine levelsUnfixed brain slicesDopamine cell groupsCell survivalDopamine cell survivalDopamine cell numberDays of gestationEarly gestation tissuesTime of implantationAfrican green monkeysVideo-based imagingGraft survivalMesencephalic tissueDonor graftsGestational ageNeural graftsNeurological disabilityDopaminergic neuronsGraft sizeDopamine contentSingle graft