2024
The human claustrum tracks slow waves during sleep
Lamsam L, Gu B, Liang M, Sun G, Khan K, Sheth K, Hirsch L, Pittenger C, Kaye A, Krystal J, Damisah E. The human claustrum tracks slow waves during sleep. Nature Communications 2024, 15: 8964. PMID: 39419999, PMCID: PMC11487173, DOI: 10.1038/s41467-024-53477-x.Peer-Reviewed Original ResearchInformation processing style and institutional trust as factors of COVID vaccine hesitancy
Zhao W, Russell C, Jankovsky A, Cannon T, Pittenger C, Pushkarskaya H. Information processing style and institutional trust as factors of COVID vaccine hesitancy. Scientific Reports 2024, 14: 10416. PMID: 38710827, PMCID: PMC11074285, DOI: 10.1038/s41598-024-60788-y.Peer-Reviewed Original ResearchConceptsInformation processing styleIndividual cognitive styleProcessing styleCognitive styleSelf-report measures of personalityMeasures of personalitySelf-report measuresInformation processing capacityPersonality traitsBehavioral tasksStructural equation modelingAuthoritarian submissionEquation modelingProcessing capacityStylePersonsComprehensive assessmentInformation processing capabilitiesPerceptionTrust levelProcessing capabilitiesMultifactorial natureSocio-demographic factorsClinical characteristicsTask
2023
Prefrontal allopregnanolone mediates the adverse effects of acute stress in a mouse model of tic pathophysiology
Cadeddu R, Van Zandt M, Santovito L, Odeh K, Anderson C, Flanagan D, Nordkild P, Pinna G, Pittenger C, Bortolato M. Prefrontal allopregnanolone mediates the adverse effects of acute stress in a mouse model of tic pathophysiology. Neuropsychopharmacology 2023, 48: 1288-1299. PMID: 37198434, PMCID: PMC10354086, DOI: 10.1038/s41386-023-01603-6.Peer-Reviewed Original ResearchConceptsEffects of allopregnanoloneTourette syndromeCholinergic interneuronsAcute stressPrefrontal cortexPrepulse inhibitionTic pathophysiologyMouse modelAdverse effectsStriatal cholinergic interneuronsDeficient prepulse inhibitionSeverity of ticsPost-mortem studiesPharmacological antagonismPPI deficitsNeurosteroid allopregnanoloneMale miceAdministration doseAllopregnanoloneAnimal modelsBehavioral pathologySymptom severityAcute stressorYoung adulthoodAP levels
2020
Antibodies From Children With PANDAS Bind Specifically to Striatal Cholinergic Interneurons and Alter Their Activity
Xu J, Liu RJ, Fahey S, Frick L, Leckman J, Vaccarino F, Duman RS, Williams K, Swedo S, Pittenger C. Antibodies From Children With PANDAS Bind Specifically to Striatal Cholinergic Interneurons and Alter Their Activity. American Journal Of Psychiatry 2020, 178: 48-64. PMID: 32539528, PMCID: PMC8573771, DOI: 10.1176/appi.ajp.2020.19070698.Peer-Reviewed Original ResearchConceptsStriatal cholinergic interneuronsCholinergic interneuronsMouse brain slicesObsessive-compulsive disorderControl subjectsBrain slicesPediatric autoimmune neuropsychiatric disordersIntravenous immunoglobulin treatmentAutoimmune neuropsychiatric disordersAcute mouse brain slicesParvalbumin-expressing GABAergic interneuronsPediatric obsessive-compulsive disorderBrain antigensImmunoglobulin treatmentBaseline serumStreptococcal infectionCritical cellular targetsSymptom improvementGABAergic interneuronsInduced autoimmunityIgG antibodiesMouse slicesIndependent cohortBehavioral pathologyNeuron types
2014
Histidine Decarboxylase Deficiency Causes Tourette Syndrome: Parallel Findings in Humans and Mice
Baldan LC, Williams KA, Gallezot JD, Pogorelov V, Rapanelli M, Crowley M, Anderson GM, Loring E, Gorczyca R, Billingslea E, Wasylink S, Panza KE, Ercan-Sencicek AG, Krusong K, Leventhal BL, Ohtsu H, Bloch MH, Hughes ZA, Krystal JH, Mayes L, de Araujo I, Ding YS, State MW, Pittenger C. Histidine Decarboxylase Deficiency Causes Tourette Syndrome: Parallel Findings in Humans and Mice. Neuron 2014, 81: 77-90. PMID: 24411733, PMCID: PMC3894588, DOI: 10.1016/j.neuron.2013.10.052.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAmphetamineAnimalsBrainChildDopamine AgonistsDopamine AntagonistsExploratory BehaviorFemaleHistidine DecarboxylaseHumansMaleMaze LearningMiceMice, KnockoutMiddle AgedMutationOxazinesRacloprideRadionuclide ImagingStereotyped BehaviorTime FactorsTourette SyndromeTryptophanYoung AdultConceptsTourette syndromeHA infusionKnockout miceD2/D3 receptor bindingDecarboxylase deficiencyDopamine D2 antagonist haloperidolCortico-basal ganglia circuitsStriatal DA levelsHDC knockout miceD3 receptor bindingImmediate early gene FosD2 antagonist haloperidolRare genetic causeBiosynthesis of histamineStriatal DARare causeBasal gangliaDA levelsAntagonist haloperidolGanglia circuitsPrepulse inhibitionMiceReceptor bindingGenetic causeHistidine decarboxylase
2013
Global Resting-State Functional Magnetic Resonance Imaging Analysis Identifies Frontal Cortex, Striatal, and Cerebellar Dysconnectivity in Obsessive-Compulsive Disorder
Anticevic A, Hu S, Zhang S, Savic A, Billingslea E, Wasylink S, Repovs G, Cole MW, Bednarski S, Krystal JH, Bloch MH, Li CS, Pittenger C. Global Resting-State Functional Magnetic Resonance Imaging Analysis Identifies Frontal Cortex, Striatal, and Cerebellar Dysconnectivity in Obsessive-Compulsive Disorder. Biological Psychiatry 2013, 75: 595-605. PMID: 24314349, PMCID: PMC3969771, DOI: 10.1016/j.biopsych.2013.10.021.Peer-Reviewed Original ResearchConceptsObsessive-compulsive disorderPrefrontal cortexResting-state functional connectivity dataStriatum/nucleus accumbensVentral striatum/nucleus accumbensResting-state functional connectivity studiesVentral anterior cingulate cortexCortico-striatal circuitsMagnetic Resonance Imaging AnalysisAnterior cingulate cortexFunctional connectivity studiesBasal gangliaControl subjectsFunctional connectivity dataAnterior thalamusRight putamenFrontal cortexNucleus accumbensDorsal striatumCerebellar cortexAbnormal neural connectivityCerebellar dysconnectivityCingulate cortexWhole brainFunctional magnetic resonance imaging (fMRI) analysis
2012
Effects of Ketamine in Treatment-Refractory Obsessive-Compulsive Disorder
Bloch MH, Wasylink S, Landeros-Weisenberger A, Panza KE, Billingslea E, Leckman JF, Krystal JH, Bhagwagar Z, Sanacora G, Pittenger C. Effects of Ketamine in Treatment-Refractory Obsessive-Compulsive Disorder. Biological Psychiatry 2012, 72: 964-970. PMID: 22784486, PMCID: PMC3667652, DOI: 10.1016/j.biopsych.2012.05.028.Peer-Reviewed Original ResearchConceptsObsessive-compulsive disorderKetamine infusionDepression symptomsLow-dose ketamine infusionTreatment-refractory obsessive-compulsive disorderOCD symptomsPathogenesis of OCDIncomplete symptom reliefTreatment-Refractory ObsessiveOpen-label trialRapid antidepressant effectsAspartate glutamate receptorsEffects of ketaminePotent noncompetitive antagonistGlutamate abnormalitiesAntidepressant effectsAntidepressant responseSymptom reliefKetamine effectsComorbid depressionAcute effectsGlutamate receptorsDepressive symptomsNoncompetitive antagonistInfusion