Project description:Scn2a deletion disrupts oligodendroglia function: Implication for myelination, neural circuitry, and auditory hypersensitivity in ASD.

Project description:ASD gut mycobiota

Project description:ASD Colorado Longitudinal

Project description:The oligodendrocyte (OL) lineage gene Olig2 persistently expresses throughout oligodendroglial development and required for oligodendroglial specification and differentiation. Here, Together, by leveraging multiple immature OL-expressing Cre lines at different stages, we demonstrate that Olig2 is required for differentiation and myelination of immature OL and myelin repair and raise fundamental questions about the previously proposed role for Olig2 in opposing OL myelination, while highlighting the importance of using Cre-dependent reporter for lineage tracing in studying cell fate transition.

Project description:Autism Spectrum disorder (ASD) is a heterogeneous neurodevelopmental disorder where patients have impaired social behavior and communication, and restricted interests. Although various studies have been carried out to unveil the mechanisms associated with ASD, its pathophysiology is still poorly understood. Genetic variants on CNTNAP2 have been found and considered representative ASD genetic risk factors, and disruption of Cntnap2 causes ASD phenotypes in mice. Here, we performed an integrative multi-omics analysis by combining quantitative proteometabolomics data of Cntnap2 knockout (KO) mice with multi-omics data from ASD patients and forebrain organoids to elucidate Cntnap2-dependent molecular networks of ASD. First, we found Cntnap2-associated molecular signatures and cellular processes by conducting mass spectrometry-based proteometabolomic analysis of the medial prefrontal cortex of the Cntnap2 KO mouse model. Then, we narrowed these identified processes into bona fide ASD molecular processes by incorporating multi-omics data of ASD patients' prefrontal cortex. Further, we mapped cell-type-specific ASD networks by reanalyzing single-cell RNA-seq data of forebrain organoids derived from patients with CNTNAP2 mutation. Finally, we constructed a Cntnap2-associated ASD network model consisting of mitochondrial dysfunction, axonal impairment, and synaptic activity. Our results may shed light on understanding of the Cntnap2-dependent molecular networks of ASD.

Project description:We postulated that specific differences in alternative splicing/exon usage in immune blood cells may be present in ASD boys, and this might differ in ASD boys with large total cerebral volumes (ASD_LTCV) versus ASD boys with normal total cerebral volumes (ASD_NTCV). Thus, we compared ASD and ASD sub-groups related to total cerebral volume to typically developing (TD) controls.

Project description:DNA from ectodermal cells of individuals with an Autism Spectrum Disorder born to mothers aged 35 and older was analzyed for discovery of differentially methylated regions and comethylation modules associated with ASD DNA from 48 individuals with ASD and DNA from 48 typically developing controls (all born to mothers older than 35) was isolated, bisulphite converte, and hybridized to the Illumina 450K array.

Project description:ASD rat feces Raw sequence reads

Project description:Autism Spectrum Disorder (ASD) is phenotypically and genetically heterogeneous, but genomic analyses have identified candidate susceptibility genes. We present a CRISPR gene editing strategy to insert a protein tag and premature termination sites creating an induced pluripotent stem cell (iPSC) knockout resource for functional studies of 10 ASD-relevant genes (AFF2/FMR2, ANOS1, ASTN2, ATRX, CACNA1C, CHD8, DLGAP2, KCNQ2, SCN2A, TENM1). Neurogenin 2 (NEUROG2)-directed differentiation of iPSCs allowed production of cortical excitatory neurons, and mutant proteins were not detectable. Using both patch-clamp and multi-electrode array approaches, the electrophysiological deficits measured were distinct for different mutations. However, they culminated in a consistent reduction in synaptic activity, including reduced spontaneous excitatory post-synaptic current frequencies in AFF2/FMR2-, ASTN2-, ATRX-, KCNQ2- and SCN2A-null neurons. RNAseq revealed convergence of several neuronal networks. Despite ASD susceptibility genes belonging to different gene ontologies, isogenic stem cell resources can reveal common functional phenotypes, such as reduced functional connectivity.

Project description:The PRC2 complex creates a repressive mark histone-H3-Lys27-trimethylation. Although PRC2 is involved in various biological processes, its role in glial development remains ambiguous. We find PRC2 complex is required for oligodendrocyte (OL) differentiation and myelination, but not for OL precursor formation. Furthermore, most PRC2-null OL lineage cells (cKO) acquire astrocyte features. RNA profiles from RNAseq assay reveal that many transcription factors involved in oligodendrocyte and astrocyte development are regulated by PRC2. Moreover, PRC2-null OL lineage cells aberrantly induce Notch-NFIA and Wnt pathway genes. The chromatin immunoprecipitation-sequencing (ChIPseq) assay further reveals that PRC2 is recruited to many of Notch-NFIA and Wnt pathway genes. The datasets demonstrate the molecular program underlying the specific action of PRC2 and suggest PRC2 as a gatekeeper that determines the timing of OL lineage progression and myelination.