2018
Risk Locus Identification Ties Alcohol Withdrawal Symptoms to SORCS2
Smith AH, Ovesen PL, Skeldal S, Yeo S, Jensen KP, Olsen D, Diazgranados N, Zhao H, Farrer LA, Goldman D, Glerup S, Kranzler HR, Nykjær A, Gelernter J. Risk Locus Identification Ties Alcohol Withdrawal Symptoms to SORCS2. Alcohol Clinical And Experimental Research 2018, 42: 2337-2348. PMID: 30252935, PMCID: PMC6317871, DOI: 10.1111/acer.13890.Peer-Reviewed Original ResearchConceptsAlcohol withdrawalEpigenomic data setsGenome-wide association studiesWide significant findingsLife-threatening seizuresAlcohol withdrawal symptomsTop association signalsTissue-specific activityNeural lineage cellsGenetic risk factorsHarmful alcohol useAssociation signalsRegulatory elementsBioinformatics analysisStress hormone levelsAlcohol cessationChromosome 4Neurotrophic factorWithdrawal symptomsRisk factorsEthanol exposureHormone levelsAssociation studiesNervous systemAdditional genotyping
2011
Early-life stress, corpus callosum development, hippocampal volumetrics, and anxious behavior in male nonhuman primates
Jackowski A, Perera TD, Abdallah CG, Garrido G, Tang CY, Martinez J, Mathew SJ, Gorman JM, Rosenblum LA, Smith EL, Dwork AJ, Shungu DC, Kaffman A, Gelernter J, Coplan JD, Kaufman J. Early-life stress, corpus callosum development, hippocampal volumetrics, and anxious behavior in male nonhuman primates. Psychiatry Research 2011, 192: 37-44. PMID: 21377844, PMCID: PMC4090111, DOI: 10.1016/j.pscychresns.2010.11.006.Peer-Reviewed Original ResearchMeSH KeywordsAnalysis of VarianceAnimalsAnxietyBehavior, AnimalBrain MappingCorpus CallosumCross-Sectional StudiesFearGene FrequencyGenotypeHippocampusImage Processing, Computer-AssistedLinear ModelsMacaca radiataMagnetic Resonance ImagingMaleSerotonin Plasma Membrane Transport ProteinsStress, PsychologicalConceptsBrain developmentNonhuman primatesCorpus callosum measurementsMale bonnet monkeysMiddle temporal gyrus volumeCorpus callosum developmentMale nonhuman primatesEarly life stressReduced hippocampusCorpus callosumMRI measuresBonnet monkeysPsychiatric disordersMRI scansHippocampal volumetricsSerotonin transporter genotypeCC sizeStress paradigmHippocampusStress reactivityMorphometry assessmentBehavioral assessmentTransporter genotypeAnxious behaviorEarly stress
2009
Twenty-one-base-pair insertion polymorphism creates an enhancer element and potentiates SLC6A1 GABA transporter promoter activity
Hirunsatit R, George ED, Lipska BK, Elwafi HM, Sander L, Yrigollen CM, Gelernter J, Grigorenko EL, Lappalainen J, Mane S, Nairn AC, Kleinman JE, Simen AA. Twenty-one-base-pair insertion polymorphism creates an enhancer element and potentiates SLC6A1 GABA transporter promoter activity. Pharmacogenetics And Genomics 2009, 19: 53-65. PMID: 19077666, PMCID: PMC2791799, DOI: 10.1097/fpc.0b013e328318b21a.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAgedAnimalsBase SequenceBlack or African AmericanCase-Control StudiesCell LineDNA PrimersEnhancer Elements, GeneticFemaleGABA Plasma Membrane Transport ProteinsGene ExpressionHippocampusHumansMaleMiceMiddle AgedMinisatellite RepeatsMolecular Sequence DataMutagenesis, InsertionalPharmacogeneticsPolymorphism, GeneticPromoter Regions, GeneticRecombinant ProteinsRNA, MessengerSchizophreniaSequence Homology, Nucleic AcidTranscriptional ActivationYoung Adult
2008
Influence of Vascular Endothelial Growth Factor Variation on Human Hippocampus Morphology
Blumberg HP, Wang F, Chepenik LG, Kalmar JH, Edmiston E, Duman RS, Gelernter J. Influence of Vascular Endothelial Growth Factor Variation on Human Hippocampus Morphology. Biological Psychiatry 2008, 64: 901-903. PMID: 18707678, PMCID: PMC2649728, DOI: 10.1016/j.biopsych.2008.07.003.Peer-Reviewed Original ResearchEffects of the Brain-Derived Neurotrophic Growth Factor Val66Met Variation on Hippocampus Morphology in Bipolar Disorder
Chepenik LG, Fredericks C, Papademetris X, Spencer L, Lacadie C, Wang F, Pittman B, Duncan JS, Staib LH, Duman RS, Gelernter J, Blumberg HP. Effects of the Brain-Derived Neurotrophic Growth Factor Val66Met Variation on Hippocampus Morphology in Bipolar Disorder. Neuropsychopharmacology 2008, 34: 944-951. PMID: 18704093, PMCID: PMC2837582, DOI: 10.1038/npp.2008.107.Peer-Reviewed Original ResearchConceptsSmaller hippocampus volumesHippocampus volumeBipolar disorderBDNF genotypeBD diagnosisMood disorder pathophysiologyBDNF Val66Met polymorphismHigh-resolution magnetic resonanceHealthy comparison subjectsVal/Val homozygotesEffect of diagnosisLinear mixed model analysisVal66Met polymorphismGrowth factor proteinBD subgroupsDisorder pathophysiologyHC subjectsHippocampal developmentComparison subjectsMixed model analysisHippocampus structureBDNFHippocampus morphologyAnterior hippocampusVal homozygotes
1989
Temporal lobe measurement in primary affective disorder by magnetic resonance imaging
Hauser P, Altshuler LL, Berrettini W, Dauphinais ID, Gelernter J, Post RM. Temporal lobe measurement in primary affective disorder by magnetic resonance imaging. Journal Of Neuropsychiatry 1989, 1: 128-134. PMID: 2521053, DOI: 10.1176/jnp.1.2.128.Peer-Reviewed Original ResearchConceptsPrimary affective disorderTemporal lobeAffective disordersCerebral areasSpecific temporal lobe structuresTemporal lobe structuresMagnetic resonance imagingNormal controlsNormal subjectsInterpeduncular cisternBrain scansCoronal slicesResonance imagingPatientsLobe structuresDisordersLobeSame hemisphereRelative decreaseMagnetic resonanceSubjects