Fadya Binyameen scite author profile

Gene expression differs between cell types and regions within complex tissues such as the developing brain. To discover regulatory elements underlying this specificity, we generated genome-wide maps of chromatin accessibility in eleven anatomically-defined regions of the developing human telencephalon, including upper and deep layers of the prefrontal cortex. We predicted a subset of open chromatin regions (18%) that are most likely to be active enhancers, many of which are dynamic with 26% differing between early and late mid-gestation and 28% present in only one brain region. These region-specific predicted regulatory elements (pREs) are enriched proximal to genes with expression differences across regions and developmental stages and harbor distinct sequence motifs that suggest potential upstream regulators of regional and temporal transcription. We leverage this atlas to identify regulators of genes associated with autism spectrum disorder (ASD) including an enhancer of BCL11A , validated in mouse, and two functional de novo mutations in individuals with ASD in an enhancer of SLC6A1 , validated in neuroblastoma cells. These applications demonstrate the utility of this atlas for decoding neurodevelopmental gene regulation in health and disease.

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Autism risk gene POGZ promotes chromatin accessibility and expression of clustered synaptic genes

Markenscoff-Papadimitriou

Binyameen

Whalen

et al. 2021

Cell Reports

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Autism risk gene POGZ promotes chromatin accessibility and expression of clustered synaptic genes

Markenscoff-Papadimitriou

Binyameen

Whalen

et al. 2021

Preprint

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De novo mutations in POGZ, which encodes the chromatin regulator Pogo Transposable Element with ZNF Domain protein, are strongly associated with autism spectrum disorder (ASD). Here we find that in the developing mouse and human brain POGZ binds predominantly euchromatic loci and these are enriched for human neurodevelopmental disorder genes and transposable elements. We profile chromatin accessibility and gene expression in Pogz-/- mice and find that POGZ promotes chromatin accessibility of candidate regulatory elements (REs) and the expression of clustered synaptic genes. We further demonstrate that POGZ forms a nuclear complex and co-occupies loci with HP1gamma and ADNP, another high-confidence ASD risk gene. In Pogz+/- mice, Adnp expression is reduced. We postulate that reduced POGZ dosage disrupts cortical function through alterations in the POGZ-ADNP balance which modifies neuronal gene expression.

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Fadya Binyameen

A Chromatin Accessibility Atlas of the Developing Human Telencephalon

Autism risk gene POGZ promotes chromatin accessibility and expression of clustered synaptic genes

Autism risk gene POGZ promotes chromatin accessibility and expression of clustered synaptic genes

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