Disruption of the autism gene and chromatin regulator KDM5A alters hippocampal cell identity

Lauretta El Hayek; Darlene DeVries; Ashlesha Gogate; Ariel Aiken; Kiran Kaur; Maria H. Chahrour

doi:10.1126/SCIADV.ADI0074

Disruption of the autism gene and chromatin regulator KDM5A alters hippocampal cell identity

Lauretta El Hayek, Darlene DeVries, Ashlesha Gogate, Ariel Aiken, Kiran Kaur, Maria H. Chahrour

Research output: Contribution to journal › Article › peer-review

Abstract

Chromatin regulation plays a pivotal role in establishing and maintaining cellular identity and is one of the top pathways disrupted in autism spectrum disorder (ASD). The hippocampus, composed of distinct cell types, is often affected in patients with ASD. However, the specific hippocampal cell types and their transcriptional programs that are dysregulated in ASD are unknown. Using single-nucleus RNA sequencing, we show that the ASD gene, lysine demethylase 5A (KDM5A), regulates the development of specific subtypes of excitatory and inhibitory neurons. We found that KDM5A is essential for establishing hippocampal cell identity by controlling a differentiation switch early in development. Our findings define a role for the chromatin regulator KDM5A in establishing hippocampal cell identity and contribute to the emerging convergent mechanisms across ASD.

Original language	English (US)
Article number	eadi0074
Journal	Science Advances
Volume	9
Issue number	47
DOIs	https://doi.org/10.1126/SCIADV.ADI0074
State	Published - Nov 2023

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title = "Disruption of the autism gene and chromatin regulator KDM5A alters hippocampal cell identity",

abstract = "Chromatin regulation plays a pivotal role in establishing and maintaining cellular identity and is one of the top pathways disrupted in autism spectrum disorder (ASD). The hippocampus, composed of distinct cell types, is often affected in patients with ASD. However, the specific hippocampal cell types and their transcriptional programs that are dysregulated in ASD are unknown. Using single-nucleus RNA sequencing, we show that the ASD gene, lysine demethylase 5A (KDM5A), regulates the development of specific subtypes of excitatory and inhibitory neurons. We found that KDM5A is essential for establishing hippocampal cell identity by controlling a differentiation switch early in development. Our findings define a role for the chromatin regulator KDM5A in establishing hippocampal cell identity and contribute to the emerging convergent mechanisms across ASD.",

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AU - Hayek, Lauretta El

AU - DeVries, Darlene

AU - Gogate, Ashlesha

AU - Aiken, Ariel

AU - Kaur, Kiran

AU - Chahrour, Maria H.

PY - 2023/11

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N2 - Chromatin regulation plays a pivotal role in establishing and maintaining cellular identity and is one of the top pathways disrupted in autism spectrum disorder (ASD). The hippocampus, composed of distinct cell types, is often affected in patients with ASD. However, the specific hippocampal cell types and their transcriptional programs that are dysregulated in ASD are unknown. Using single-nucleus RNA sequencing, we show that the ASD gene, lysine demethylase 5A (KDM5A), regulates the development of specific subtypes of excitatory and inhibitory neurons. We found that KDM5A is essential for establishing hippocampal cell identity by controlling a differentiation switch early in development. Our findings define a role for the chromatin regulator KDM5A in establishing hippocampal cell identity and contribute to the emerging convergent mechanisms across ASD.

AB - Chromatin regulation plays a pivotal role in establishing and maintaining cellular identity and is one of the top pathways disrupted in autism spectrum disorder (ASD). The hippocampus, composed of distinct cell types, is often affected in patients with ASD. However, the specific hippocampal cell types and their transcriptional programs that are dysregulated in ASD are unknown. Using single-nucleus RNA sequencing, we show that the ASD gene, lysine demethylase 5A (KDM5A), regulates the development of specific subtypes of excitatory and inhibitory neurons. We found that KDM5A is essential for establishing hippocampal cell identity by controlling a differentiation switch early in development. Our findings define a role for the chromatin regulator KDM5A in establishing hippocampal cell identity and contribute to the emerging convergent mechanisms across ASD.

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Disruption of the autism gene and chromatin regulator KDM5A alters hippocampal cell identity

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