2022
Sex differences in developmental patterns of neocortical astroglia: A mouse translatome database
Rurak GM, Simard S, Freitas-Andrade M, Lacoste B, Charih F, Van Geel A, Stead J, Woodside B, Green JR, Coppola G, Salmaso N. Sex differences in developmental patterns of neocortical astroglia: A mouse translatome database. Cell Reports 2022, 38: 110310. PMID: 35108542, DOI: 10.1016/j.celrep.2022.110310.Peer-Reviewed Original ResearchConceptsGene expression patternsRibosome affinity purificationDevelopmental time pointsAstroglial phenotypeMaintenance of neuronsRNA sequencingAffinity purificationExpression patternsTelencephalic developmentAstroglial cellsSteroid hormone receptorsSex differencesKey playersNeuronal networksHormone receptorsDevelopmental patternsImportant sex differencesPhenotypeDevelopmental sex differencesWindow of vulnerabilityFemale miceHormonal manipulationPostnatal developmentAstrogliaTranslatome
2021
Cell-to-Cell Adhesion and Neurogenesis in Human Cortical Development: A Study Comparing 2D Monolayers with 3D Organoid Cultures
Scuderi S, Altobelli GG, Cimini V, Coppola G, Vaccarino FM. Cell-to-Cell Adhesion and Neurogenesis in Human Cortical Development: A Study Comparing 2D Monolayers with 3D Organoid Cultures. Stem Cell Reports 2021, 16: 264-280. PMID: 33513360, PMCID: PMC7878838, DOI: 10.1016/j.stemcr.2020.12.019.Peer-Reviewed Original Research
2017
Intersection of diverse neuronal genomes and neuropsychiatric disease: The Brain Somatic Mosaicism Network
McConnell MJ, Moran JV, Abyzov A, Akbarian S, Bae T, Cortes-Ciriano I, Erwin JA, Fasching L, Flasch DA, Freed D, Ganz J, Jaffe AE, Kwan KY, Kwon M, Lodato MA, Mills RE, Paquola ACM, Rodin RE, Rosenbluh C, Sestan N, Sherman MA, Shin JH, Song S, Straub RE, Thorpe J, Weinberger DR, Urban AE, Zhou B, Gage FH, Lehner T, Senthil G, Walsh CA, Chess A, Courchesne E, Gleeson JG, Kidd JM, Park PJ, Pevsner J, Vaccarino FM, Barton A, Bekiranov S, Bohrson C, Burbulis I, Chronister W, Coppola G, Daily K, D’Gama A, Emery S, Frisbie T, Gao T, Gulyás-Kovács A, Haakenson M, Keil J, Kopera H, Lam M, Lee E, Marques-Bonet T, Mathern G, Moldovan J, Oetjens M, Omberg L, Peters M, Pochareddy S, Pramparo T, Ratan A, Sanavia T, Shi L, Skarica M, Wang J, Wang M, Wang Y, Wierman M, Wolpert M, Woodworth M, Zhao X, Zhou W. Intersection of diverse neuronal genomes and neuropsychiatric disease: The Brain Somatic Mosaicism Network. Science 2017, 356 PMID: 28450582, PMCID: PMC5558435, DOI: 10.1126/science.aal1641.Peer-Reviewed Original ResearchConceptsSomatic mutationsComplex genetic architectureStructural genomic variantsNeuronal genomeNeuronal transcriptomeGenetic architectureCell divisionCellular metabolismGenomic variantsLong life spanDNA damageComplex neuropsychiatric disorderCellular expansionNeuropsychiatric diseasesNeuropsychiatric disordersProgenitor cellsSomatic mosaicismIndividual neurodevelopmentSmall populationCell proliferationPopulation-based studyMutationsGermline variantsLife spanBrain development
2015
FOXG1-Dependent Dysregulation of GABA/Glutamate Neuron Differentiation in Autism Spectrum Disorders
Mariani J, Coppola G, Zhang P, Abyzov A, Provini L, Tomasini L, Amenduni M, Szekely A, Palejev D, Wilson M, Gerstein M, Grigorenko EL, Chawarska K, Pelphrey KA, Howe JR, Vaccarino FM. FOXG1-Dependent Dysregulation of GABA/Glutamate Neuron Differentiation in Autism Spectrum Disorders. Cell 2015, 162: 375-390. PMID: 26186191, PMCID: PMC4519016, DOI: 10.1016/j.cell.2015.06.034.Peer-Reviewed Original ResearchConceptsInduced pluripotent stem cellsGene network analysisGene network modulesUpregulation of genesTranscription factor Foxg1Accelerated cell cyclePluripotent stem cellsRNA interferenceGenetic basisSynaptic assemblyCell cycleBrain developmentNeuron fateNeuron differentiationNeuronal differentiationGenomic mutationsHuman brain developmentIdiopathic autism spectrum disorderAltered expressionStem cellsCell proliferationFOXG1ASD pathophysiologyNetwork modulesNeural cultures
2012
Neurobiology meets genomic science: The promise of human-induced pluripotent stem cells
Stevens HE, Mariani J, Coppola G, Vaccarino FM. Neurobiology meets genomic science: The promise of human-induced pluripotent stem cells. Development And Psychopathology 2012, 24: 1443-1451. PMID: 23062309, PMCID: PMC3513939, DOI: 10.1017/s095457941200082x.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsHuman-induced pluripotent stem cellsPluripotent stem cellsStem cellsNeuronal cellsInduced pluripotent stem cell (iPSC) technologyPluripotent stem cell (iPSC) technologyNormal human brain developmentHuman genesSomatic cellsCell biologyStem cell technologyGene transcriptsHuman brain developmentAspects of developmentMessenger RNADevelopmental stepsGenomic scienceBiologySeries of eventsCellsBrain developmentGenesGeneticsHuman individualsTranscriptsModeling human cortical development in vitro using induced pluripotent stem cells
Mariani J, Simonini MV, Palejev D, Tomasini L, Coppola G, Szekely AM, Horvath TL, Vaccarino FM. Modeling human cortical development in vitro using induced pluripotent stem cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 109: 12770-12775. PMID: 22761314, PMCID: PMC3411972, DOI: 10.1073/pnas.1202944109.Peer-Reviewed Original ResearchConceptsHuman brain developmentHuman induced pluripotent stem cellsLayer-specific cortical neuronsBrain developmentHuman cerebral cortexHuman cortical developmentStem cellsPluripotent stem cellsCerebral cortexCortical neuronsCortical developmentCNS regionsRadial gliaCortical wallDorsal telencephalonEmbryonic telencephalonGene expression profilesInduced pluripotent stem cellsIntermediate progenitorsTelencephalic developmentTelencephalonExpression profilesTranscriptional programsCellsGlia