2024
42. STRESS EXPOSURE DYNAMICALLY REGULATES EQTL ACTIVITY IN THE POST-MORTEM BRAIN AND IN HIPSC-DERIVED NEURONS
Seah C, Signer R, Young H, Hicks E, Rusielewicz T, Bader H, Xu C, Breen M, Paull D, Yehuda R, Girgenti M, Brennand K, Huckins L. 42. STRESS EXPOSURE DYNAMICALLY REGULATES EQTL ACTIVITY IN THE POST-MORTEM BRAIN AND IN HIPSC-DERIVED NEURONS. European Neuropsychopharmacology 2024, 87: 71-72. DOI: 10.1016/j.euroneuro.2024.08.156.Peer-Reviewed Original ResearchPost-mortem brainsTranscription factor binding sitesAbsence of cellular stressCombat-exposed veteransFactor binding sitesImpact gene expressionBinding sitesGR binding sitesPositive regulatory activityMotif enrichmentSequence readsCRISPRi screenOpen chromatinFunctional annotationBrain regionsTraumatic stressCRISPR screensEQTLTraumatic experiencesLeading locusPTSDPerturbed genesRegulatory architectureTranscriptomic activityTranscriptomic response
2020
Functional annotation of rare structural variation in the human brain
Han L, Zhao X, Benton ML, Perumal T, Collins RL, Hoffman GE, Johnson JS, Sloofman L, Wang HZ, Stone MR, Brennand K, Brand H, Sieberts S, Marenco S, Peters M, Lipska B, Roussos P, Capra J, Talkowski M, Ruderfer D. Functional annotation of rare structural variation in the human brain. Nature Communications 2020, 11: 2990. PMID: 32533064, PMCID: PMC7293301, DOI: 10.1038/s41467-020-16736-1.Peer-Reviewed Original Research
2017
Evaluating Synthetic Activation and Repression of Neuropsychiatric-Related Genes in hiPSC-Derived NPCs, Neurons, and Astrocytes
Ho S, Hartley B, Flaherty E, Rajarajan P, Abdelaal R, Obiorah I, Barretto N, Muhammad H, Phatnani H, Akbarian S, Brennand K. Evaluating Synthetic Activation and Repression of Neuropsychiatric-Related Genes in hiPSC-Derived NPCs, Neurons, and Astrocytes. Stem Cell Reports 2017, 9: 615-628. PMID: 28757163, PMCID: PMC5550013, DOI: 10.1016/j.stemcr.2017.06.012.Peer-Reviewed Original ResearchConceptsSynthetic activationRisk genesCell typesModulation of transcriptionNeuropsychiatric risk genesCommon single nucleotide variantsCas9 fusion proteinsEndogenous expression levelsNeural cell typesPluripotent stem cell-derived neural progenitor cellsRare copy number variationsCopy number variationsSingle nucleotide variantsNeural progenitor cellsGene functionFunctional annotationGenetic studiesGenesRisk variantsProgenitor cellsExpression levelsTranscriptionRepressionPositional effectsProtein
2014
A Role for Noncoding Variation in Schizophrenia
Roussos P, Mitchell A, Voloudakis G, Fullard J, Pothula V, Tsang J, Stahl E, Georgakopoulos A, Ruderfer D, Charney A, Okada Y, Siminovitch K, Worthington J, Padyukov L, Klareskog L, Gregersen P, Plenge R, Raychaudhuri S, Fromer M, Purcell S, Brennand K, Robakis N, Schadt E, Akbarian S, Sklar P. A Role for Noncoding Variation in Schizophrenia. Cell Reports 2014, 9: 1417-1429. PMID: 25453756, PMCID: PMC4255904, DOI: 10.1016/j.celrep.2014.10.015.Peer-Reviewed Original ResearchMeSH KeywordsArthritis, RheumatoidCalcium Channels, L-TypeDatabases, GeneticDNA, IntergenicEnhancer Elements, GeneticGene Expression RegulationGenetic LociGenetic Predisposition to DiseaseGenome-Wide Association StudyHumansMolecular Sequence AnnotationOrgan SpecificityPolymorphism, Single NucleotidePromoter Regions, GeneticProtein BindingRisk FactorsSchizophreniaConceptsExpression quantitative trait lociGenome-wide significant lociCommon variant lociQuantitative trait lociPluripotent stem cell-derived neuronsDistal regulatory elementsStem cell-derived neuronsPotential physical interactionsCell-derived neuronsRegulatory element sequencesPotential functional roleGenome architectureChromosomal loopingTranscriptional regulationFunctional annotationTrait lociSignificant lociNoncoding SNPsRegulatory elementsNoncoding variationsRisk lociVariant lociUnknown functionFunctional linkElement sequences