2019
Perinatal nicotine exposure impairs learning of a skilled forelimb reaching task in male but not female adult mice
Lee AM, Picciotto MR. Perinatal nicotine exposure impairs learning of a skilled forelimb reaching task in male but not female adult mice. Behavioural Brain Research 2019, 367: 176-180. PMID: 30959127, PMCID: PMC6481625, DOI: 10.1016/j.bbr.2019.04.007.Peer-Reviewed Original ResearchConceptsNicotine exposureSingle-pellet reaching taskMotor tasksCortical synaptic plasticityPerinatal nicotine exposureDevelopmental nicotine exposureGross motor functionNicotine-treated animalsNicotine-induced changesFemale adult miceSkilled motor taskGross motor performanceAdverse outcomesMotor cortexFemale miceMale miceMotor functionSkilled forelimbPreclinical studiesControl animalsAdult miceImpaired learningSynaptic plasticityFemale pupsMorphologic changes
2014
Expression of the 5-HT1A Serotonin Receptor in the Hippocampus Is Required for Social Stress Resilience and the Antidepressant-Like Effects Induced by the Nicotinic Partial Agonist Cytisine
Mineur YS, Einstein EB, Bentham MP, Wigestrand MB, Blakeman S, Newbold SA, Picciotto MR. Expression of the 5-HT1A Serotonin Receptor in the Hippocampus Is Required for Social Stress Resilience and the Antidepressant-Like Effects Induced by the Nicotinic Partial Agonist Cytisine. Neuropsychopharmacology 2014, 40: 938-946. PMID: 25288485, PMCID: PMC4330507, DOI: 10.1038/npp.2014.269.Peer-Reviewed Original ResearchMeSH Keywords8-Hydroxy-2-(di-n-propylamino)tetralinAlkaloidsAnimalsAntidepressive AgentsAzocinesDisease Models, AnimalDrug SynergismFluoxetineGene Expression RegulationHEK293 CellsHindlimb SuspensionHippocampusHumansInterpersonal RelationsMaleMiceMice, Inbred C57BLMotor ActivityQuinolizinesReceptor, Serotonin, 5-HT1ASelective Serotonin Reuptake InhibitorsSerotonin Receptor AgonistsStress, PsychologicalConceptsAntidepressant-like effectsSelective serotonin reuptake inhibitorsDorsal rapheCholinergic systemAgonist cytisineNicotinic acetylcholine receptor blockersEffects of cytisineTreatment-resistant patientsSerotonin reuptake inhibitorsAcetylcholine receptor blockerSSRI fluoxetineReceptor blockersAntidepressant efficacyReuptake inhibitorsSerotonin depletionCholinergic drugsMood disordersSerotonin receptorsMouse modelPharmacological approachesHippocampusReceptorsCytisineRapheMolecular mechanisms
2013
Molecules and circuits involved in nicotine addiction: The many faces of smoking
Picciotto MR, Mineur YS. Molecules and circuits involved in nicotine addiction: The many faces of smoking. Neuropharmacology 2013, 76: 545-553. PMID: 23632083, PMCID: PMC3772953, DOI: 10.1016/j.neuropharm.2013.04.028.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAppetiteBrainDisease Models, AnimalHumansMood DisordersNicotineReceptors, NicotinicSmoking CessationTobacco Use DisorderConceptsTobacco smokingNicotine reinforcementTobacco smokeNicotine addictionMultiple brain circuitsSymptoms of anxietyFuture therapeutic developmentSmoking cessationNicotine receptorsAdult smokingDevelopmental exposureSmokingNew treatmentsBrain circuitsTherapeutic developmentCellular basisWidespread addictionCircuit basisCessationBiological basisAddictionBehavioral studiesNumber of behaviorsSmokeVarenicline
2010
Examining antidepressant drug response by smoking status: why is it important and how often is it done?
Weinberger AH, McKee SA, Picciotto MR, Mazure CM. Examining antidepressant drug response by smoking status: why is it important and how often is it done? Journal Of Psychopharmacology 2010, 25: 1269-1276. PMID: 21169392, PMCID: PMC3256572, DOI: 10.1177/0269881110389347.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntidepressive AgentsDepressionDisease Models, AnimalHumansRandomized Controlled Trials as TopicSmokingConceptsSmoking statusImpact of smokingEffect of smokingNeurobiology of depressionAntidepressant treatment outcomeAntidepressant drug responsePharmacological intervention studiesPharmacological trialsClinical trialsTreatment outcomesMEDLINE searchNicotine dependenceSmokingTargeted treatmentIntervention studiesTreatment studiesDrug responseDepressionOutcomesTreatment researchTrialsStatusTreatmentAntidepressantsPharmacotherapy
2009
Varenicline has antidepressant-like activity in the forced swim test and augments sertraline's effect
Rollema H, Guanowsky V, Mineur YS, Shrikhande A, Coe JW, Seymour PA, Picciotto MR. Varenicline has antidepressant-like activity in the forced swim test and augments sertraline's effect. European Journal Of Pharmacology 2009, 605: 114-116. PMID: 19168054, PMCID: PMC2707785, DOI: 10.1016/j.ejphar.2009.01.002.Peer-Reviewed Original ResearchConceptsAntidepressant-like activitySwim testPartial agonistNicotinic acetylcholine receptor activityNicotinic acetylcholine receptor partial agonistSelective serotonin reuptake inhibitor sertralineSerotonin reuptake inhibitor sertralineSelective serotonin reuptake inhibitorsAntidepressant-like propertiesAcetylcholine receptor activitySerotonin reuptake inhibitorsSmoking cessation aidReceptor partial agonistSertraline effectsVarenicline doseAntidepressant responseReuptake inhibitorsAntidepressant potentialCessation aidActive dosesAcetylcholine receptorsReceptor activityVareniclineMouse strainsAgonists
2008
Antidepressant-like effects of nicotine and transcranial magnetic stimulation in the olfactory bulbectomy rat model of depression
Vieyra-Reyes P, Mineur YS, Picciotto MR, Túnez I, Vidaltamayo R, Drucker-Colín R. Antidepressant-like effects of nicotine and transcranial magnetic stimulation in the olfactory bulbectomy rat model of depression. Brain Research Bulletin 2008, 77: 13-18. PMID: 18582540, PMCID: PMC2771408, DOI: 10.1016/j.brainresbull.2008.05.007.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntidepressive AgentsBehavior, AnimalDepressionDisease Models, AnimalDrug Administration ScheduleExploratory BehaviorInjections, IntraperitonealMaleMotor ActivityNicotineOlfactory BulbPsychology, ComparativeRatsRats, Long-EvansRats, WistarSelf AdministrationSpecies SpecificitySwimmingTranscranial Magnetic StimulationConceptsDepression-like symptomsTranscranial magnetic stimulationAntidepressant-like effectsWistar ratsMagnetic stimulationOlfactory bulbectomyRat strainsDaily transcranial magnetic stimulationOlfactory bulbectomy rat modelEffects of nicotineOral nicotine intakeOral intakeDepression managementSwim testTherapeutic alternativeNicotine intakeRat modelLong-Evans rat strainDepression susceptibilitySymptomsLong-EvansNicotineInnate differencesRatsBulbectomy
2007
Deficiency in Inhibitory Cortical Interneurons Associates with Hyperactivity in Fibroblast Growth Factor Receptor 1 Mutant Mice
Smith K, Fagel DM, Stevens HE, Rabenstein RL, Maragnoli ME, Ohkubo Y, Picciotto MR, Schwartz ML, Vaccarino FM. Deficiency in Inhibitory Cortical Interneurons Associates with Hyperactivity in Fibroblast Growth Factor Receptor 1 Mutant Mice. Biological Psychiatry 2007, 63: 953-962. PMID: 17988653, DOI: 10.1016/j.biopsych.2007.09.020.Peer-Reviewed Original ResearchMeSH KeywordsAmphetamineAnimalsBehavior, AnimalBiogenic MonoaminesCell CountCentral Nervous System StimulantsCerebral CortexDisease Models, AnimalDopamine AgentsExploratory BehaviorFibroblast Growth Factor 1Glutamate DecarboxylaseHyperkinesisLocomotionMaleMethylphenidateMiceMice, KnockoutMotor ActivityNerve Tissue ProteinsNeural InhibitionNeuronsSignal TransductionConceptsInhibitory cortical circuitsCortical pyramidal neuronsD2 receptor antagonistGrowth factor receptor 1Spontaneous locomotor hyperactivityFibroblast growth factor receptor 1Factor receptor 1Inhibitory neuronal subtypesLocomotor hyperactivityDopamine agonistsCerebral cortexPyramidal neuronsBasal gangliaMotor hyperactivityReceptor antagonistInhibitory interneuronsTyrosine hydroxylaseCortical circuitsPsychiatric disordersLocomotor responseNeuronal subtypesReceptor 1Mutant miceDopamine transporterSpatial learningGenetics of nicotinic acetylcholine receptors: Relevance to nicotine addiction
Mineur YS, Picciotto MR. Genetics of nicotinic acetylcholine receptors: Relevance to nicotine addiction. Biochemical Pharmacology 2007, 75: 323-333. PMID: 17632086, PMCID: PMC2212607, DOI: 10.1016/j.bcp.2007.06.010.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDisease Models, AnimalGenetic LinkageHumansMiceNicotinePolymorphism, Single NucleotideProtein SubunitsReceptors, NicotinicTobacco Use DisorderConceptsGene productsNicotinic acetylcholine receptorsClassical genetic approachesClasses of genesNicotine dependenceGenetic engineering studiesNumber of genesGenetic engineering techniquesNicotine addictionAnimal studiesAcetylcholine receptorsGene association studiesHuman twin studiesNumber of subunitsSubstantial genetic componentGenetic approachesGenetic basisDopaminergic cell bodiesAbility of nicotineVentral tegmental areaAssociation studiesLines of evidenceGenetic componentNicotine-related behaviorsMesolimbic system
2006
Antidepressant-Like Effects of Ceftriaxone in Male C57BL/6J Mice
Mineur YS, Picciotto MR, Sanacora G. Antidepressant-Like Effects of Ceftriaxone in Male C57BL/6J Mice. Biological Psychiatry 2006, 61: 250-252. PMID: 16860779, DOI: 10.1016/j.biopsych.2006.04.037.Peer-Reviewed Original ResearchConceptsAntidepressant-like effectsMajor depressive disorderUptake of glutamateBeta-lactam antibiotic agentsNovelty-suppressed feeding testExcessive glutamatergic neurotransmissionDepressive-like behaviorAntidepressant-like activityMale C57BL/6J miceTail suspension testNovelty-suppressed feedingCeftriaxone treatmentC57BL/6J miceGlutamatergic neurotransmissionDepressive disorderAntidepressant compoundsSuspension testMouse modelThree monthsCeftriaxoneAntibiotic agentsRecent evidenceMiceSimilar effectsFeeding tests
2003
Sex differences in response to oral amitriptyline in three animal models of depression in C57BL/6J mice
Caldarone BJ, Karthigeyan K, Harrist A, Hunsberger JG, Wittmack E, King SL, Jatlow P, Picciotto MR. Sex differences in response to oral amitriptyline in three animal models of depression in C57BL/6J mice. Psychopharmacology 2003, 170: 94-101. PMID: 12879206, DOI: 10.1007/s00213-003-1518-7.Peer-Reviewed Original ResearchConceptsAntidepressant-like effectsTail suspension testDuration of treatmentAntidepressant amitriptylineTransgenic miceChronic treatmentImmobility timeB6 miceDepression modelChronic AMI treatmentFemale B6 miceTricyclic antidepressant amitriptylineMechanism of actionAMI administrationOral amitriptylineAntidepressant treatmentControl miceLH paradigmSwim testFemale miceOral administrationAMI treatmentEscape latencySuspension testAnimal models
2002
Neuronal Systems Underlying Behaviors Related to Nicotine Addiction: Neural Circuits and Molecular Genetics
Picciotto MR, Corrigall WA. Neuronal Systems Underlying Behaviors Related to Nicotine Addiction: Neural Circuits and Molecular Genetics. Journal Of Neuroscience 2002, 22: 3338-3341. PMID: 11978809, PMCID: PMC6758396, DOI: 10.1523/jneurosci.22-09-03338.2002.Peer-Reviewed Original ResearchConceptsAction of nicotineNicotine addictionNicotinic acetylcholine receptor subunitsAcetylcholine receptor subunitsStudies of miceSerotonergic nucleiNicotine effectsDopaminergic activityDopaminergic systemNicotine dependenceBrainstem cholinergicNeural circuitsNeuronal systemsReceptor subunitsBehavioral effectsNicotineAddictionRecent studiesNeural systemsInitial observationsCholinergicGABAergicMolecular geneticsMice
1999
Increased neurodegeneration during ageing in mice lacking high‐affinity nicotine receptors
Zoli M, Picciotto M, Ferrari R, Cocchi D, Changeux J. Increased neurodegeneration during ageing in mice lacking high‐affinity nicotine receptors. The EMBO Journal 1999, 18: 1235-1244. PMID: 10064590, PMCID: PMC1171214, DOI: 10.1093/emboj/18.5.1235.Peer-Reviewed Original ResearchConceptsHigh-affinity nicotine receptorsSpatial learningHippocampal pyramidal neuronsRegion-specific alterationsSerum corticosterone levelsPossible animal modelNicotinic acetylcholine receptorsPyramidal neuronsNeuronal survivalNicotine receptorsCholinergic systemEndocrine parametersControl animalsIncreased neurodegenerationAnimal modelsCorticosterone levelsAcetylcholine receptorsAlzheimer's diseaseDegenerative processCortical regionsMorris mazeCognitive deficitsMutant miceMiceBeta2 subunitKnock-Out Mouse Models Used to Study Neurobiological Systems
Picciotto M. Knock-Out Mouse Models Used to Study Neurobiological Systems. Critical Reviews In Neurobiology 1999, 13: 103-149. PMID: 10512487, DOI: 10.1615/critrevneurobiol.v13.i2.10.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsAnimalsDisease Models, AnimalMiceMice, KnockoutMice, Neurologic MutantsNervous SystemNervous System Diseases
1998
Using Knockout and Transgenic Mice to Study Neurophysiology and Behavior
PICCIOTTO M, WICKMAN K. Using Knockout and Transgenic Mice to Study Neurophysiology and Behavior. Physiological Reviews 1998, 78: 1131-1163. PMID: 9790572, DOI: 10.1152/physrev.1998.78.4.1131.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements