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Project description:We performed single-cell RNA sequencing on murine dorsal telencephalon isolated at gestational day (GD) 14.5, 48 hours after dams are exposed to ethanol or control air in a vapour chamber for 1 hour.

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Project description:Report of alternative splicing events altered by alcohol exposure in human fetal ceebral cortex in late first trimester.

Project description:A dataset for coordinated transcriptome analysis of the effect of ethanol on human embryonic cerebral slices in vitro and on the mouse embryonic cerebral cortex in a in vivo model. GW15 and 17 embryonic cortices that were obtained from the Human Fetal Tissue Repository at Albert Einstein College of Medicine. The research protocol was approved by Yale Human Investigation Committee. The medical histories of all samples did not present exposure to alcohol during pregnancy. The tissues were stored in L-15 Leibovitz medium on ice and were cut at 300 µm using a tissue chopper within 3 hours after the surgery. the slices were cultured on the membrane floating on the Neurobasal medium containing 50 mM ethanol or PBS with supplements for 24 hours in tissue culture plate with low evaporation lid (falcon, 353046). Wild-type CD-1 pregnant mice were purchased from Charles River. For the mouse in vivo mFAE model, the pregnant dams of wild-type and transgenic mice were intraperitoneally injected with 25% ethanol/PBS (final 2.0g/kg weight) or PBS (as the control) once a day from E14 to E16.

Project description:A dataset for coordinated transcriptome analysis of the effect of ethanol on human embryonic cerebral slices in vitro and on the mouse embryonic cerebral cortex in a in vivo model.

Project description:Fetal Alcohol Spectrum Disorder (FASD) encompasses an array of effects of prenatal alcohol exposure (PAE), including physical abnormalities and cognitive and behavioral deficits. Disruptions of cortical development have been implicated in multiple PAE studies, with deficits including decreased progenitor proliferation, disrupted neuronal differentiation, aberrant radial migration of pyramidal neurons, and decreased cortical thickness. While several mechanisms of alcohol teratogenicity have been explored, how specific cell types in the brain at different developmental time points may be differentially affected by PAE is still poorly understood. In this study, we used single nucleus RNA sequencing (snRNAseq) to investigate whether moderate PAE from neurulation through peak cortical neurogenesis induces cell type-specific transcriptomic changes in the developing murine brain. Cluster analysis identified 25 neuronal cell types, including subtypes of neural epithelial cells (NECs), radial glial cells (RGCs), intermediate progenitor cells (IPCs), projection neurons, and interneurons. Only Wnt-expressing NECs showed a significant decrease in the percentage of cells after PAE, with no cell types showing PAE-induced apoptosis as measured by caspase expression. Cell cycle analysis revealed only a subtype of RGCs expressing the downstream Wnt signaling transcription factor Tcf7l2 had a decreased percentage of cells in the G2/M phase of the cell cycle, suggesting decreased proliferation in this RGC subtype and further implicating disrupted Wnt signaling after PAE at this early developmental timepoint. An increased pseudotime score in IPC and projection neuron cell types indicated that PAE led to increased or premature differentiation of these cells. Biological processes affected by PAE included the upregulation of pathways related to synaptic activity and neuronal differentiation and downregulation of pathways related to chromosome structure and the cell cycle. Several cell types showed a decrease in Wnt signaling pathways, with several genes related to Wnt signaling altered by PAE in multiple cell types. As Wnt has been shown to promote proliferation and inhibit differentiation at earlier stages in development, the downregulation of Wnt signaling may have resulted in premature neuronal maturation of projection neurons and their intermediate progenitors. Overall, these findings provide further insight into the cell type-specific effects of PAE during early corticogenesis.

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