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Transcriptomic and epigenomic dynamics associated with development of human iPSC-derived GABAergic interneurons

George Andrew S. Inglis, Ying Zhou, Dillon G. Patterson, Christopher D. Scharer, Yanfei Han, Jeremy M. Boss, Zhexing Wen, Andrew Escayg

2020Human Molecular Genetics14 citationsDOIOpen Access PDF

Abstract

GABAergic interneurons (GINs) are a heterogeneous population of inhibitory neurons that collectively contribute to the maintenance of normal neuronal excitability and network activity. Identification of the genetic regulatory elements and transcription factors that contribute toward GIN function may provide new insight into the pathways underlying proper GIN activity while also indicating potential therapeutic targets for GIN-associated disorders, such as schizophrenia and epilepsy. In this study, we examined the temporal changes in gene expression and chromatin accessibility during GIN development by performing transcriptomic and epigenomic analyses on human induced pluripotent stem cell-derived neurons at 22, 50 and 78 days (D) post-differentiation. We observed 13 221 differentially accessible regions (DARs) of chromatin that associate with temporal changes in gene expression at D78 and D50, relative to D22. We also classified families of transcription factors that are increasingly enriched at DARs during differentiation, indicating regulatory networks that likely drive GIN development. Collectively, these data provide a resource for examining the molecular networks regulating GIN functionality.

Topics & Concepts

EpigenomicsChromatinBiologyInduced pluripotent stem cellTranscriptomeTranscription factorPopulationGABAergicNeuroscienceGene regulatory networkRegulation of gene expressionComputational biologyGene expressionGeneticsGeneEmbryonic stem cellInhibitory postsynaptic potentialDNA methylationMedicineEnvironmental healthGenomics and Chromatin DynamicsRNA Research and SplicingPluripotent Stem Cells Research