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Transcriptional Signature of Valproic Acid-Induced Neural Tube Defects in Human Spinal Cord Organoids

Ju‐Hyun Lee, Mohammed R. Shaker, Si-Hyung Park, Woong Sun

2023International Journal of Stem Cells15 citationsDOIOpen Access PDF

Abstract

In vertebrates, the entire central nervous system is derived from the neural tube, which is formed through a conserved early developmental morphogenetic process called neurulation. Although the perturbations in neurulation caused by genetic or environmental factors lead to neural tube defects (NTDs), the most common congenital malformation and the precise molecular pathological cascades mediating NTDs are not well understood. Recently, we have developed human spinal cord organoids (hSCOs) that recapitulate some aspects of human neurulation and observed that valproic acid (VPA) could cause neurulation defects in an organoid model. In this study, we identified and verified the significant changes in cell-cell junctional genes/proteins in VPA-treated organoids using transcriptomic and immunostaining analysis. Furthermore, VPA-treated mouse embryos exhibited impaired gene expression and NTD phenotypes, similar to those observed in the hSCO model. Collectively, our data demonstrate that hSCOs provide a valuable biological resource for dissecting the molecular pathways underlying the currently unknown human neurulation process using destructive biological analysis tools.

Topics & Concepts

NeurulationNeural tubeBiologyOrganoidCell biologySpinal cordTranscriptomeModel organismNeural tube defectNeuroscienceAnatomyGeneticsEmbryoGeneGene expressionGastrulationEmbryogenesisEpigenetics and DNA MethylationNeurogenesis and neuroplasticity mechanismsPluripotent Stem Cells Research
Transcriptional Signature of Valproic Acid-Induced Neural Tube Defects in Human Spinal Cord Organoids | Litcius