2020
Generation of Pluripotent Stem Cells Using Somatic Cell Nuclear Transfer and Induced Pluripotent Somatic Cells from African Green Monkeys
Chung YG, Seay M, Elsworth J, Redmond D. Generation of Pluripotent Stem Cells Using Somatic Cell Nuclear Transfer and Induced Pluripotent Somatic Cells from African Green Monkeys. Stem Cells And Development 2020, 29: 1294-1307. PMID: 32715987, DOI: 10.1089/scd.2020.0059.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceCell LineChlorocebus aethiopsChromosome BandingCloning, OrganismCulture MediaCytogenetic AnalysisDNADopaminergic NeuronsEmbryonic DevelopmentEmbryonic Stem CellsFemaleGenotypeHumansInduced Pluripotent Stem CellsMitochondriaNuclear Transfer TechniquesOvaryTyrosine 3-MonooxygenaseConceptsAfrican green monkeysInduced pluripotent stem cellsCell linesGreen monkeysStem cellsEffective cell replacement therapyPromising potential therapyPluripotent stem cellsDopamine depletionReplacement therapyDopamine neuronsCell replacement therapyBrain pathologyDonor monkeyParkinson's diseasePotential therapyMonkey studiesFemale monkeysClinical predictive powerImmune rejectionImmune systemAccidental exposurePossible treatmentIPSC linesRodent experiments
2005
Neural Stem Cells Implanted into MPTP-Treated Monkeys Increase the Size of Endogenous Tyrosine Hydroxylase-Positive Cells Found in the Striatum: A Return to Control Measures
Bjugstad K, Redmond D, Teng Y, Elsworth J, Roth R, Blanchard B, Snyder E, Sladek J. Neural Stem Cells Implanted into MPTP-Treated Monkeys Increase the Size of Endogenous Tyrosine Hydroxylase-Positive Cells Found in the Striatum: A Return to Control Measures. Cell Transplantation 2005, 14: 183-192. PMID: 15929553, DOI: 10.3727/000000005783983098.Peer-Reviewed Original ResearchConceptsTyrosine hydroxylase-positive cellsNeural stem cellsHydroxylase-positive cellsSubstantia nigraHuman neural stem cellsParkinson's diseaseHuman NSCsCaudate nucleusEffects of NSCsPresence of NSCsImplanted neural stem cellsRight substantia nigraUntreated control monkeysRight caudate nucleusCell populationsAfrican green monkeysEndogenous cell populationsStem cellsMPTP damageMPTP treatmentStriatal environmentNigrostriatal pathwayDopamine neuronsControl monkeysSelective dopaminergic
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 stressCortexPrenatal exposure to cocaine reduces the number and enhances reactivity of A10 dopaminergic neurons to environmental stress
Morrow B, Elsworth J, Roth R. Prenatal exposure to cocaine reduces the number and enhances reactivity of A10 dopaminergic neurons to environmental stress. Synapse 2001, 41: 337-344. PMID: 11494404, DOI: 10.1002/syn.1090.Peer-Reviewed Original ResearchConceptsA10 dopamine neuronsDopamine neuronsDopaminergic neuronsPrenatal exposurePrenatal saline controlsTyrosine hydroxylase immunoreactiveA10 dopaminergic neuronsCocaine-induced reductionRat dopaminergic neuronsCocaine-exposed ratsPoor cognitive performanceYoung adult offspringUnderlying biochemical changesDopaminergic functionA9 regionSaline controlsIntravenous modelPerinatal lossAdult offspringIntermittent footshockImmediate early genesCognitive deficitsNeuronal systemsBehavioral effectsCell groups
2000
Estrogen Is Essential for Maintaining Nigrostriatal Dopamine Neurons in Primates: Implications for Parkinson's Disease and Memory
Leranth C, Roth R, Elsworth J, Naftolin F, Horvath T, Redmond D. Estrogen Is Essential for Maintaining Nigrostriatal Dopamine Neurons in Primates: Implications for Parkinson's Disease and Memory. Journal Of Neuroscience 2000, 20: 8604-8609. PMID: 11102464, PMCID: PMC6773080, DOI: 10.1523/jneurosci.20-23-08604.2000.Peer-Reviewed Original ResearchConceptsNigrostriatal dopamine neuronsDopamine neuronsParkinson's diseaseSubstantia nigraDopamine cellsTyrosine hydroxylase-expressing neuronsTyrosine hydroxylase-immunoreactive cellsNigral dopamine systemsEstrogen replacement therapyNew treatment strategiesUnbiased stereological analysisTypes of neuronsProgression of diseaseEstrogen replacementPostmenopausal womenEstrogen deprivationReplacement therapyTreatment strategiesCompact zoneGonadal hormonesLong-term effectsDopamine systemEstrogenDiseaseNeuronsTMT, 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 method
1999
The role of mesoprefrontal dopamine neurons in the acquisition and expression of conditioned fear in the rat
Morrow B, Elsworth J, Rasmusson A, Roth R. The role of mesoprefrontal dopamine neurons in the acquisition and expression of conditioned fear in the rat. Neuroscience 1999, 92: 553-564. PMID: 10408604, DOI: 10.1016/s0306-4522(99)00014-7.Peer-Reviewed Original ResearchConceptsFear conditioningMesoprefrontal dopamine neuronsClassical fear conditioningMedial prefrontal cortexDopamine neuronsFear responsesConditioned fearPrefrontal cortexFearful behaviorNormal extinctionConditioned responsePsychological stressorsRate of extinctionStress-related changesSham-lesioned ratsConditioningFearAcquisition periodDopamine metabolismNucleus accumbensDopamine levelsAcquisitionRatsNeuronsLesionsBiochemical and behavioral anxiolytic-like effects of R(+)HA-966 at the level of the ventral tegmental area in rats
Morrow B, Elsworth J, Zito C, Roth R. Biochemical and behavioral anxiolytic-like effects of R(+)HA-966 at the level of the ventral tegmental area in rats. Psychopharmacology 1999, 143: 227-234. PMID: 10353424, DOI: 10.1007/s002130050941.Peer-Reviewed Original ResearchConceptsVentral tegmental areaHA-966Expression sessionsIntra-VTADopamine metabolismTegmental areaGlycine/NMDA receptor complexPrefrontal cortexMesoprefrontal dopamine neuronsAnxiolytic-like effectsAnxiolytic-like actionDopamine cell bodiesNMDA receptor complexWeak partial agonistMedial prefrontal cortexStress-induced activationCannula implantationDopamine neuronsControl ratsLocal injectionPartial agonistRatsCell bodiesPsychological stressorsStress-induced changes
1998
Pattern 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 remodelingIntrastriatal Grafts From Multiple Donors Do Not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates
Sladek J, Collier T, Elsworth J, Roth R, Taylor J, Redmond D. Intrastriatal Grafts From Multiple Donors Do Not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates. Cell Transplantation 1998, 7: 87-96. DOI: 10.1016/s0963-6897(98)00007-4.Peer-Reviewed Original ResearchConceptsDopamine neuronsDouble graftsAdult African green monkeysVentral mesencephalic dopamine neuronsMultiple donorsGrafts of tissueMore dopamine neuronsSymptoms of parkinsonismMesencephalic dopamine neuronsDopamine cell survivalHuman clinical trialsAfrican green monkeysIntrastriatal graftsPositive neuronsTotal numberClinical trialsDopamine levelsCaudate nucleusRecipient animalsGraftGrafted tissueNeuronsGreen monkeysNonhuman primatesDorsoventral extentIntrastriatal Grafts from Multiple Donors do not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates
Sladek J, Collier T, Elsworth J, Roth R, Taylor J, Redmond D. Intrastriatal Grafts from Multiple Donors do not Result in a Proportional Increase in Survival of Dopamine Neurons in Nonhuman Primates. Cell Transplantation 1998, 7: 87-96. PMID: 9588591, DOI: 10.1177/096368979800700204.Peer-Reviewed Original ResearchConceptsDopamine neuronsDouble graftsAdult African green monkeysVentral mesencephalic dopamine neuronsMultiple donorsGrafts of tissueMore dopamine neuronsSymptoms of parkinsonismMesencephalic dopamine neuronsDopamine cell survivalHuman clinical trialsAfrican green monkeysIntrastriatal graftsPositive neuronsTotal numberClinical trialsDopamine levelsCaudate nucleusRecipient animalsGraftGrafted tissueNeuronsGreen monkeysNonhuman primatesDorsoventral extent
1997
Dysregulation of Mesoprefrontal Dopamine Neurons Induced by Acute and Repeated Phencyclidine Administration in the Nonhuman Primate: Implications for Schizophrenia
Jentsch J, Elsworth J, Taylor J, Redmond D, Roth R. Dysregulation of Mesoprefrontal Dopamine Neurons Induced by Acute and Repeated Phencyclidine Administration in the Nonhuman Primate: Implications for Schizophrenia. Advances In Pharmacology 1997, 42: 810-814. PMID: 9328021, DOI: 10.1016/s1054-3589(08)60870-4.Peer-Reviewed Original ResearchConceptsPCP administrationAcute PCP administrationNegative symptomsDA systemMesoprefrontal dopamine neuronsSubcortical DA systemsBrains of patientsSchizophrenia-like symptomatologyDevelopment of neuropathologyDistinct behavioral effectsDAergic dysfunctionDA metabolismDAergic functionDopamine neuronsCognitive dysfunctionNovel agentsDeficits of schizophreniaFrontal cortexPsychotomimetic propertiesNeurobiological effectsDopamine systemPositive symptomsPhencyclidine administrationBehavioral effectsAdministration
1996
Blockade of FG 7142‐Induced Increased Dopamine Utilization by the Glycine/NMDA Receptor Antagonist (+)‐HA 966
Horger B, Elsworth J, Roth R. Blockade of FG 7142‐Induced Increased Dopamine Utilization by the Glycine/NMDA Receptor Antagonist (+)‐HA 966. Journal Of Neurochemistry 1996, 66: 1959-1962. PMID: 8780023, DOI: 10.1046/j.1471-4159.1996.66051959.x.Peer-Reviewed Original ResearchConceptsDopamine utilizationFG 7142Medial prefrontal cortexNucleus accumbensPrefrontal cortexReceptor antagonistHA-966Shell subdivisionReceptor influencesBenzodiazepine inverse agonist FG 7142Male Sprague-Dawley ratsMedia prefrontal cortexMesoaccumbal dopamine neuronsGlycine/NMDA receptor antagonistGlycine receptor antagonistSaline 15 minNMDA receptor antagonistSprague-Dawley ratsDopamine neuronsVehicle administrationSystemic administrationDihydroxyphenylacetic acidAccumbensMajor metaboliteTissue concentrationsEarly 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
1995
Co-Grafts in Dopamine-Depleted Primates: Preliminary Results and Theoretical Issues Related to Human Applications for Parkinson’s Disease
Sladek J, Elsworth J, Roth R, Blanchard B, Taylor J, Collier T, Redmond D. Co-Grafts in Dopamine-Depleted Primates: Preliminary Results and Theoretical Issues Related to Human Applications for Parkinson’s Disease. Altschul Symposia Series 1995, 219-230. DOI: 10.1007/978-1-4615-1929-4_18.Peer-Reviewed Original ResearchDopamine neuronsDisease patientsHuman dopamine neuronsNon-dopaminergic neuronsVentral mesencephalic graftsParkinson's disease patientsMesencephalic reticular formationHuman neural tissueDaily levodopaHost brainMesencephalic graftsMesencephalic tissueDorsal rapheVentral mesencephalonPatient 1Serotonergic neuronsVentral tegmentumPoor survivalEmbryonic mesencephalonReticular formationTrochlear nucleusRat brainRat striatumTrigeminal complexParkinson's disease
1994
Expression Of A Novel TRK C Receptor Isoform With Truncated Extracellular Domain In Fetal And Adult Monkey Brains
Tam S, Elsworth J, Redmond D, Roth R. Expression Of A Novel TRK C Receptor Isoform With Truncated Extracellular Domain In Fetal And Adult Monkey Brains. Neuropsychopharmacology 1994, 11: 286-286. DOI: 10.1038/sj.npp.1380219.Peer-Reviewed Original ResearchAdult monkey brainTrk BTrk AMonkey brainReceptor tyrosine kinasesFamily of neurotrophinsTrk C receptorTrk-C mRNAMesencephalic dopamine neuronsHigh-affinity receptorAfrican green monkeysExtracellular domainMonkey midbrainTyrosine kinaseNT-3Dopamine neuronsNT-4C receptorFetal developmentAffinity receptorReceptor isoformsTrk familyGreen monkeysTyrosine kinase domainPattern of expressionPeripheral nerve-dopamine neuron co-grafts in mptp-treated monkeys: Augmentation of tyrosine hydroxylase-positive fiber staining and dopamine content in host systems
Collier T, Elsworth J, Taylor J, Sladek J, Roth R, Redmond D. Peripheral nerve-dopamine neuron co-grafts in mptp-treated monkeys: Augmentation of tyrosine hydroxylase-positive fiber staining and dopamine content in host systems. Neuroscience 1994, 61: 875-889. PMID: 7838385, DOI: 10.1016/0306-4522(94)90410-3.Peer-Reviewed Original ResearchConceptsDopamine neuronsCaudate nucleusNon-human primatesLateral ventricleSeptal areaDopamine systemEmbryonic ventral mesencephalic tissueTyrosine hydroxylase-positive fibersHomovanillic acid/dopamine ratioDopamine neuron graftsDopamine-depleted monkeysEmbryonic ventral mesencephalonGrafted dopamine neuronsVentral mesencephalic tissueLateral septal areaLevels of dopamineMesencephalic dopamine neuronsMetabolite homovanillic acidBrain dopamine systemsMPTP-treated monkeysDirection of normalizationAfrican green monkeysInjury-induced regenerationMesencephalic tissueSaphenous nerve
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 ResearchConceptsGrafted dopamine neuronsDopamine neuronsNeurotrophic activityAxonal outgrowthCircuit reconstructionGraftNeurons