Pathogenic O-GlcNAc dyshomeostasis associated with cortical malformations and hyperactivity

Florence Authier
Asad Jan
Islam Faress
Christian Stald Skoven
Iria Esperon-Abril
Shagana Tharmakulasingam Balasubramaniam
Kévin-Sébastien Coquelin
Jens R. Nyengaard
Carsten Scavenius
Benedetta Attianese
Oscar G. Sevillano-Quispe
Simon Fristed Eskildsen
Jesper Skovhus Thomsen
Brian Hansen
Daan M. F. van Aalten

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Abstract

Missense variants in the O-GlcNAc transferase ( OGT) gene have recently been shown to segregate with a syndromic form of intellectual disability (OGT-ID), underscoring the importance of protein O-GlcNAcylation in brain function. However, the underlying pathophysiological mechanisms linking ID to potential OGT malfunction—whether developmental, neurophysiological, or both—remain unclear. Here, we present comprehensive analyses encompassing behaviour and brain architecture in a rodent model carrying the C921Y OGT-ID variant. These mice show a range of behavioural deficits, including hyperactivity, impulsivity, and associative learning phenotypes. Structural studies, using micro-computed tomography and magnetic resonance imaging, revealed reduced skull size, microcephaly, reduced cortical thickness and hypoplastic corpus callosum. These were associated with nodular cortical dysplasia affecting the superficial layers of the cingulate cortex. Mechanistically, quantitative proteomic analyses revealed O-GlcNAc dyshomeostasis associated with distinct perturbed molecular pathways involved in brain development. Taken together, these data reveal neurodevelopmental defects associated with O-GlcNAc dyshomeostasis and provide a platform for dissecting mechanism and treatments of OGT-ID.

Version published to 10.1101/2025.04.27.650822v1 on bioRxiv
Apr 28, 2025

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Pathogenic O-GlcNAc dyshomeostasis associated with cortical malformations and hyperactivity

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Abstract

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Pathogenic variants in BORCS5 Cause a Spectrum of Neurodevelopmental and Neurodegenerative Disorders with Lysosomal Dysfunction

De novo variants in KDM2A cause a syndromic neurodevelopmental disorder

Transcriptomic and genetic analysis suggests a role for mitochondrial dysregulation in schizophrenia

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Abstract

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Pathogenic variants in BORCS5 Cause a Spectrum of Neurodevelopmental and Neurodegenerative Disorders with Lysosomal Dysfunction

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