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Optic Atrophy 1 Controls Human Neuronal Development by Preventing Aberrant Nuclear DNA Methylation

Şafak Çağlayan, Adnan Hashim, Artur Cieślar‐Pobuda, Vidar R. Jensen, Sidney Behringer, Burcu Talug, Dinh‐Toi Chu, C. Pecquet, Marie Rogne, Andreas Brech, S.-H. Brorson, Erlend A. Nagelhus, Luciana Hannibal, Antonella Boschi, Kjetil Taskén, Judith Staerk

2020iScience34 citationsDOIOpen Access PDF

Abstract

Optic atrophy 1 (OPA1), a GTPase at the inner mitochondrial membrane involved in regulating mitochondrial fusion, stability, and energy output, is known to be crucial for neural development: Opa1 heterozygous mice show abnormal brain development, and inactivating mutations in OPA1 are linked to human neurological disorders. Here, we used genetically modified human embryonic and patient-derived induced pluripotent stem cells and reveal that OPA1 haploinsufficiency leads to aberrant nuclear DNA methylation and significantly alters the transcriptional circuitry in neural progenitor cells (NPCs). For instance, expression of the forkhead box G1 transcription factor, which is needed for GABAergic neuronal development, is repressed in OPA1+/- NPCs. Supporting this finding, OPA1+/- NPCs cannot give rise to GABAergic interneurons, whereas formation of glutamatergic neurons is not affected. Taken together, our data reveal that OPA1 controls nuclear DNA methylation and expression of key transcription factors needed for proper neural cell specification.

Topics & Concepts

BiologyNeural stem cellDNA methylationCell biologyNeurogenesisNeural developmentHaploinsufficiencyTranscription factorSonic hedgehogInduced pluripotent stem cellGABAergicEpigeneticsEmbryonic stem cellNeuroscienceGeneticsStem cellGene expressionGenePhenotypeSignal transductionInhibitory postsynaptic potentialMitochondrial Function and PathologyCRISPR and Genetic EngineeringPluripotent Stem Cells Research
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