2018
An Exploratory Trial of Transdermal Nicotine for Aggression and Irritability in Adults with Autism Spectrum Disorder
Lewis AS, van Schalkwyk GI, Lopez MO, Volkmar FR, Picciotto MR, Sukhodolsky DG. An Exploratory Trial of Transdermal Nicotine for Aggression and Irritability in Adults with Autism Spectrum Disorder. Journal Of Autism And Developmental Disorders 2018, 48: 2748-2757. PMID: 29536216, PMCID: PMC6394231, DOI: 10.1007/s10803-018-3536-7.Peer-Reviewed Original ResearchConceptsAutism spectrum disorderSpectrum disorderTransdermal nicotineDouble-blind crossover trialAggressive behaviorPreliminary efficacyAggressive symptomsSleep ratingsAggressionSubscale changesNicotinic acetylcholine receptorsNAChR agonistsPrimary outcomeNicotine treatmentCrossover trialExploratory trialΑ7 nAChRsAcetylcholine receptorsNicotineAdultsDisordersPlaceboNAChRsFurther investigationTrials
2017
Menthol disrupts nicotine’s psychostimulant properties in an age and sex-dependent manner in C57BL/6J mice
Fait BW, Thompson DC, Mose TN, Jatlow P, Jordt SE, Picciotto MR, Mineur YS. Menthol disrupts nicotine’s psychostimulant properties in an age and sex-dependent manner in C57BL/6J mice. Behavioural Brain Research 2017, 334: 72-77. PMID: 28743602, PMCID: PMC5580257, DOI: 10.1016/j.bbr.2017.07.027.Peer-Reviewed Original ResearchConceptsAdult male miceNicotine intakeMale micePsychostimulant effectsPsychostimulant propertiesHome cage locomotor activitySex-dependent mannerSex-dependent mechanismsBlood levelsAdolescent miceFemale miceLocomotor stimulationLocomotor activityNicotine sensitivityAge groupsE-cigarettesMiceIntakeSignificant decreaseNicotineAgeSexBehavioral changesAdultsSpecific mechanisms
2016
Menthol decreases oral nicotine aversion in C57BL/6 mice through a TRPM8-dependent mechanism
Fan L, Balakrishna S, Jabba SV, Bonner PE, Taylor SR, Picciotto MR, Jordt SE. Menthol decreases oral nicotine aversion in C57BL/6 mice through a TRPM8-dependent mechanism. Tobacco Control 2016, 25: ii50. PMID: 27698211, PMCID: PMC5496986, DOI: 10.1136/tobaccocontrol-2016-053209.Peer-Reviewed Original ResearchConceptsSmokeless tobacco productsWild-type miceOral nicotineC57BL/6 miceTobacco productsNicotine aversionAversive effectsTwo-bottle choice drinkingTrigeminal sensory neuronsEffect of mentholProduct useMenthol concentrationOral mentholSensory neuronsAversive concentrationsMenthol receptorOral cavityMenthol effectsRespiratory irritationMiceNicotineTRPM8Oral irritantsIrritantsAversive taste
2015
Modulation of aggressive behavior in mice by nicotinic receptor subtypes
Lewis AS, Mineur YS, Smith PH, Cahuzac EL, Picciotto MR. Modulation of aggressive behavior in mice by nicotinic receptor subtypes. Biochemical Pharmacology 2015, 97: 488-497. PMID: 26212554, PMCID: PMC4600457, DOI: 10.1016/j.bcp.2015.07.019.Peer-Reviewed Original ResearchConceptsAcute nicotine administrationNicotine administrationHypolocomotor effectNicotinic acetylcholine receptor agonist nicotineAgonist GTS-21Nicotinic receptor subtypesAnti-aggressive propertiesDihydro-β-erythroidineBALB/cNeurobiology of aggressionSocial interaction timeCurrent pharmacotherapyAntagonist methyllycaconitineC57BL/6 miceWorse outcomesGTS-21Receptor subtypesPathological aggressionAgonist nicotineΑ7 nAChRsSpecific treatmentSide effectsPharmacological studiesNeuropsychiatric conditionsNicotineReduction of Aggressive Episodes After Repeated Transdermal Nicotine Administration in a Hospitalized Adolescent with Autism Spectrum Disorder
Van Schalkwyk GI, Lewis AS, Qayyum Z, Koslosky K, Picciotto MR, Volkmar FR. Reduction of Aggressive Episodes After Repeated Transdermal Nicotine Administration in a Hospitalized Adolescent with Autism Spectrum Disorder. Journal Of Autism And Developmental Disorders 2015, 45: 3061-3066. PMID: 25982311, PMCID: PMC4755349, DOI: 10.1007/s10803-015-2471-0.Peer-Reviewed Original ResearchConceptsTransdermal nicotineNicotine administrationAutism spectrum disorderTransdermal nicotine administrationAdjunctive medicationsCurrent pharmacotherapyNicotine patchCholinergic dysfunctionEmergency medicationPreclinical studiesSpectrum disorderAnimal studiesAcetylcholinergic neurotransmissionNeuropsychiatric conditionsAggressive episodesMajor causeNicotineASD pathophysiologyMedicationsMorbidityFurther studiesAggression-related behaviorsAdministrationDisordersAdolescentsMood and anxiety regulation by nicotinic acetylcholine receptors: A potential pathway to modulate aggression and related behavioral states
Picciotto MR, Lewis AS, van Schalkwyk GI, Mineur YS. Mood and anxiety regulation by nicotinic acetylcholine receptors: A potential pathway to modulate aggression and related behavioral states. Neuropharmacology 2015, 96: 235-243. PMID: 25582289, PMCID: PMC4486625, DOI: 10.1016/j.neuropharm.2014.12.028.Peer-Reviewed Original ResearchConceptsNicotinic acetylcholine receptorsNicotinic medicationsAcetylcholine receptorsNicotinic agentsRole of nAChRsEffects of nicotineBehavioral statesSelf-medicate symptomsNicotinic effectsClinical trialsClinical studiesMood disordersPsychiatric disordersAnimal modelsAffective disordersMedicationsTobacco productsAnxiety regulationRelated constructsMental statesReceptorsDisordersNAChRsNicotineMood
2014
Self-Administration of Ethanol, Cocaine, or Nicotine Does Not Decrease the Soma Size of Ventral Tegmental Area Dopamine Neurons
Mazei-Robison MS, Appasani R, Edwards S, Wee S, Taylor SR, Picciotto MR, Koob GF, Nestler EJ. Self-Administration of Ethanol, Cocaine, or Nicotine Does Not Decrease the Soma Size of Ventral Tegmental Area Dopamine Neurons. PLOS ONE 2014, 9: e95962. PMID: 24755634, PMCID: PMC3995955, DOI: 10.1371/journal.pone.0095962.Peer-Reviewed Original ResearchConceptsVentral tegmental areaSoma sizeDopamine neuronsVentral tegmental area dopamine neuronsChronic opiate administrationAdditional drug classesDrug-specific mannerMorphological changesSelf-administer cocaineOpiate administrationTegmental areaDrug classesDA circuitsMesolimbic DA circuitSelf-AdministrationFiring rateSimilar morphological changesGeneral hallmarkNeuronsNicotineCocaineDrugsRecent findingsPrevious observationsNeuroplasticity
2012
Nicotinic Regulation of Energy Homeostasis
Zoli M, Picciotto MR. Nicotinic Regulation of Energy Homeostasis. Nicotine & Tobacco Research 2012, 14: 1270-1290. PMID: 22990212, PMCID: PMC3611985, DOI: 10.1093/ntr/nts159.Peer-Reviewed Original ResearchConceptsEnergy homeostasisCellular targetsPossible molecular targetsPrimary psychoactive substanceCell typesNicotinic acetylcholine receptor subtypesEnergy metabolismAcetylcholine receptor subtypesAbility of nicotineEffects of nicotineRegulation of feedingMolecular targetsFunctional featuresRegulationNicotinic regulationHomeostasisReceptor subtypesNAChR subtypesTobacco smokeBody weightNeuroendocrine systemRecent studiesNicotineMetabolismMammalsNicotine-taking and nicotine-seeking in C57Bl/6J mice without prior operant training or food restriction
Yan Y, Pushparaj A, Gamaleddin I, Steiner RC, Picciotto MR, Roder J, Le Foll B. Nicotine-taking and nicotine-seeking in C57Bl/6J mice without prior operant training or food restriction. Behavioural Brain Research 2012, 230: 34-39. PMID: 22326373, PMCID: PMC3310267, DOI: 10.1016/j.bbr.2012.01.042.Peer-Reviewed Original ResearchConceptsNose-poke behaviorPrior operant trainingFood restrictionDose-response curveNicotine-seeking behaviorC57BL/6J miceIntermittent footshockFlat dose-response curveNaive C57BL/6J miceInjections of nicotineOperant trainingNicotine self-administration paradigmSelf-administration paradigmCue presentationSelf-administered salineNicotine groupNicotine reinforcementLight cue presentationPriming injectionsFR2 scheduleSecond consecutive dayConsecutive daysMiceDaily sessionsNicotine
2010
Brain β2*-nicotinic acetylcholine receptor occupancy after use of a nicotine inhaler
Esterlis I, Mitsis EM, Batis JC, Bois F, Picciotto MR, Stiklus SM, Kloczynski T, Perry E, Seibyl JP, McKee S, Staley JK, Cosgrove KP. Brain β2*-nicotinic acetylcholine receptor occupancy after use of a nicotine inhaler. The International Journal Of Neuropsychopharmacology 2010, 14: 389-398. PMID: 21029513, PMCID: PMC3510008, DOI: 10.1017/s1461145710001227.Peer-Reviewed Original ResearchConceptsNicotine inhalerWithdrawal symptomsReceptor occupancyTobacco smokingLow nicotine cigarettesAdministration of nicotineHigh receptor occupancyDoses of nicotineNicotinic acetylcholine receptorsInhaler useTobacco smokersBaseline scanRegular cigarettesInhalerConstant infusionAcetylcholine receptorsSPECT studiesCigarettesSymptomsBeta 2Significant decreaseNicotineSignificant differencesSmokingNAChRsNicotine receptors and depression: revisiting and revising the cholinergic hypothesis
Mineur YS, Picciotto MR. Nicotine receptors and depression: revisiting and revising the cholinergic hypothesis. Trends In Pharmacological Sciences 2010, 31: 580-586. PMID: 20965579, PMCID: PMC2991594, DOI: 10.1016/j.tips.2010.09.004.Peer-Reviewed Original ResearchConceptsEffects of nicotineDepressive symptomsNeuronal nAChRsNovel antidepressant medicationsDepression-like behaviorMajor depressive disorderNicotinic acetylcholine receptorsAntidepressant medicationNicotine receptorsCholinergic systemDepressive disorderCholinergic hypothesisPreclinical studiesNicotinic drugsPharmacological agentsNicotinic agentsAcetylcholine receptorsEndogenous neurotransmittersSymptomsNAChRsNicotineSmokingDepressed individualsAcetylcholineReceptors
2008
Nicotine-induced plasticity during development: Modulation of the cholinergic system and long-term consequences for circuits involved in attention and sensory processing
Heath CJ, Picciotto MR. Nicotine-induced plasticity during development: Modulation of the cholinergic system and long-term consequences for circuits involved in attention and sensory processing. Neuropharmacology 2008, 56: 254-262. PMID: 18692078, PMCID: PMC2635334, DOI: 10.1016/j.neuropharm.2008.07.020.Peer-Reviewed Original ResearchConceptsDevelopmental nicotine exposureSmoke exposureNicotine exposureEndogenous cholinergic signalingTobacco smoke exposureSensory processingSensory processing deficitsNicotinic acetylcholine receptorsAttention deficit hyperactivity disorderCritical periodDeficit hyperactivity disorderPregnant womenCholinergic systemCholinergic signalingLong-term consequencesEpidemiological studiesAnimal modelsAcetylcholine receptorsSynaptic plasticityNeuropsychiatric conditionsHyperactivity disorderNicotineExposureProcessing deficitsBehavioral processesAntidepressant-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 differencesRatsBulbectomySex differences in anxiety-like behavior and locomotor activity following chronic nicotine exposure in mice
Caldarone BJ, King SL, Picciotto MR. Sex differences in anxiety-like behavior and locomotor activity following chronic nicotine exposure in mice. Neuroscience Letters 2008, 439: 187-191. PMID: 18524488, PMCID: PMC2491450, DOI: 10.1016/j.neulet.2008.05.023.Peer-Reviewed Original ResearchConceptsAnxiogenic-like responseChronic nicotineAnxiety-like behaviorLocomotor activationFemale miceLocomotor activityPsychostimulant propertiesChronic nicotine exposureFemale C57BL/6J miceSymptoms of anxietyNicotine variesNicotine exposureOverall incidenceC57BL/6J miceMale miceWildtype miceNicotine intakeNicotinic receptorsOpen armsHigh doseMiceNicotineAnxiety disordersBeta2 subunitBehavioral sensitivityNeuroprotection via nAChRs: the role of nAChRs in neurodegenerative disorders such as Alzheimer's and Parkinson's disease.
Picciotto MR, Zoli M. Neuroprotection via nAChRs: the role of nAChRs in neurodegenerative disorders such as Alzheimer's and Parkinson's disease. Frontiers In Bioscience-Landmark 2008, 13: 492-504. PMID: 17981563, DOI: 10.2741/2695.Peer-Reviewed Original ResearchConceptsAbility of nicotineNeurodegenerative disordersRole of nAChRsHuman neurodegenerationNeuroprotective agentsParkinson's diseaseDevelopmental stagesCellular effectsNicotine-mediated neuroprotectionRegimen of administrationDrug discoveryNicotine neuroprotectionNeuronal survivalNeuronal deathEpidemiological studiesNicotinic compoundsAlzheimer's diseaseRecent studiesNeuroprotectionDiseaseNicotineCompelling evidenceNAChRsVivoFull understanding
2007
Role of Calcineurin in Nicotine-Mediated Locomotor Sensitization
Addy NA, Fornasiero EF, Stevens TR, Taylor JR, Picciotto MR. Role of Calcineurin in Nicotine-Mediated Locomotor Sensitization. Journal Of Neuroscience 2007, 27: 8571-8580. PMID: 17687035, PMCID: PMC6672935, DOI: 10.1523/jneurosci.2601-07.2007.Peer-Reviewed Original ResearchConceptsVentral tegmental areaEffects of nicotineLocomotor sensitizationCalcineurin inhibitorsRole of calcineurinInfusion of rapamycinCultured cortical neuronsSprague-Dawley ratsNicotine-mediated behaviorsCyclosporine administrationTegmental areaCortical neuronsDawley ratsFK-binding proteinActivation of calcineurinNicotineSensitizationCalcineurin activityInfusionIntracellular signalingAdministrationCalcineurinFK506InhibitorsDirect infusion
2006
The Prototoxin lynx1 Acts on Nicotinic Acetylcholine Receptors to Balance Neuronal Activity and Survival In Vivo
Miwa JM, Stevens TR, King SL, Caldarone BJ, Ibanez-Tallon I, Xiao C, Fitzsimonds RM, Pavlides C, Lester HA, Picciotto MR, Heintz N. The Prototoxin lynx1 Acts on Nicotinic Acetylcholine Receptors to Balance Neuronal Activity and Survival In Vivo. Neuron 2006, 51: 587-600. PMID: 16950157, DOI: 10.1016/j.neuron.2006.07.025.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAge FactorsAnimalsAssociation LearningBrainCell SurvivalExcitatory Amino Acid AgonistsMembrane GlycoproteinsMembrane PotentialsMiceMice, Mutant StrainsMutationNerve DegenerationNeuronsNeuropeptidesNicotineNicotinic AgonistsPatch-Clamp TechniquesReceptors, NicotinicConceptsNicotinic acetylcholine receptorsNull mutant miceMutant miceAcetylcholine receptorsNeuronal activityNull mutationBiological processesLynx1Calcium levelsAgonist sensitivityReceptor desensitizationSynaptic efficacyMutationsAllosteric modulatorsDesensitization kineticsWide arrayNicotineVivoSpecific testsNAChRsMiceReceptorsSurvivalHyperactivationFunction
2004
β2-subunit-containing nicotinic acetylcholine receptors are critical for dopamine-dependent locomotor activation following repeated nicotine administration
King SL, Caldarone BJ, Picciotto MR. β2-subunit-containing nicotinic acetylcholine receptors are critical for dopamine-dependent locomotor activation following repeated nicotine administration. Neuropharmacology 2004, 47: 132-139. PMID: 15464132, DOI: 10.1016/j.neuropharm.2004.06.024.Peer-Reviewed Original ResearchConceptsLocomotor activationNicotine administrationDopamine systemNicotinic acetylcholine receptorsAcetylcholine receptorsHigh-affinity nicotinic acetylcholine receptorsDopamine receptor antagonist pimozideBeta2 subunitRole of beta2Chronic nicotine administrationChronic nicotine exposureMesolimbic dopamine systemChronic nicotineNicotine exposureAntagonist pimozideB6 miceC57BL/6J miceOral administrationDopaminergic activationOngoing activationKnockout miceLocomotor activityMiceAdministrationNicotineRole of neuronal nicotinic receptors in the effects of nicotine and ethanol on contextual fear conditioning
Wehner JM, Keller JJ, Keller AB, Picciotto MR, Paylor R, Booker TK, Beaudet A, Heinemann SF, Balogh SA. Role of neuronal nicotinic receptors in the effects of nicotine and ethanol on contextual fear conditioning. Neuroscience 2004, 129: 11-24. PMID: 15489024, DOI: 10.1016/j.neuroscience.2004.07.016.Peer-Reviewed Original ResearchConceptsContextual learningForms of learningEffects of nicotineFear conditioningCued fear conditioningContextual fear conditioningCognitive enhancing effectsBeta2 null mutant miceNicotine effectsBeta4-containing receptorsShock stimuliEffects of ethanolBeta2-containing nAChRsLearningNull mutant miceTrainingConditioningBrain nicotinic acetylcholine receptorsMutant miceNicotineNeuronal nicotinic receptorsHomozygous null mutant miceWild-type littermatesMemoryNicotinic acetylcholine receptors
2003
α4β2* Nicotinic Acetylcholine Receptors Modulate the Effects of Ethanol and Nicotine on the Acoustic Startle Response
Owens JC, Balogh SA, McClure‐Begley T, Butt CM, Labarca C, Lester HA, Picciotto MR, Wehner JM, Collins AC. α4β2* Nicotinic Acetylcholine Receptors Modulate the Effects of Ethanol and Nicotine on the Acoustic Startle Response. Alcohol Clinical And Experimental Research 2003, 27: 1867-1875. PMID: 14691373, DOI: 10.1097/01.alc.0000102700.72447.0f.Peer-Reviewed Original ResearchConceptsAcoustic startle responseEffects of ethanolLSxSS RIStartle responseAcoustic startleAlpha4beta2 nAChRsEthanol effectsBeta2 null mutant miceNeuronal nicotinic cholinergic receptorsEthanol-induced depressionNicotinic cholinergic receptorsPotential roleNicotinic acetylcholine receptorsNull mutant miceAlpha4 nAChRsCholinergic receptorsTobacco abuseNicotine effectsT polymorphismAcetylcholine receptorsLSXSS recombinantMutant miceBehavioral effectsNicotineStartle