Translational Psychiatry (Oct 2022)

NRSF/REST lies at the intersection between epigenetic regulation, miRNA-mediated gene control and neurodevelopmental pathways associated with Intellectual disability (ID) and Schizophrenia

  • Mouhamed Alsaqati,
  • Brittany A. Davis,
  • Jamie Wood,
  • Megan M. Jones,
  • Lora Jones,
  • Aishah Westwood,
  • Olena Petter,
  • Anthony R. Isles,
  • David Linden,
  • Marianne Van den Bree,
  • Michael Owen,
  • Jeremy Hall,
  • Adrian J. Harwood

DOI
https://doi.org/10.1038/s41398-022-02199-z
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 10

Abstract

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Abstract Genetic evidence indicates disrupted epigenetic regulation as a major risk factor for psychiatric disorders, but the molecular mechanisms that drive this association remain to be determined. EHMT1 is an epigenetic repressor that is causal for Kleefstra Syndrome (KS), a genetic disorder linked with neurodevelopmental disorders and associated with schizophrenia. Here, we show that reduced EHMT1 activity decreases NRSF/REST protein leading to abnormal neuronal gene expression and progression of neurodevelopment in human iPSC. We further show that EHMT1 regulates NRSF/REST indirectly via repression of miRNA and leads to aberrant neuronal gene regulation and neurodevelopment timing. Expression of a NRSF/REST mRNA that lacks the miRNA-binding sites restores neuronal gene regulation to EHMT1 deficient cells. Significantly, the EHMT1-regulated miRNA gene set not only controls NRSF/REST but is enriched for association for Intellectual Disability (ID) and schizophrenia. This reveals a broad molecular interaction between H3K9 demethylation, NSRF/REST regulation and risk for ID and Schizophrenia.