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Compromised transcription-mRNA export factor THOC2 causes R-loop accumulation, DNA damage and adverse

Rudrarup Bhattacharjee1,2, Lachlan A Jolly2,3, Mark A Corbett1,2

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|February 8, 2024
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Summary
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Mutations in the THOC2 gene disrupt brain development, causing intellectual disability and other neurodevelopmental issues. Mouse models reveal R-loop accumulation and DNA damage as key pathological mechanisms in THOC2 syndrome.

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Area of Science:

  • Genetics and Molecular Biology
  • Neuroscience
  • Developmental Biology

Background:

  • The THOC2 gene, encoding a key subunit of the TREX complex, is implicated in neurodevelopmental disorders.
  • Intellectual disability (ID) is a core phenotype associated with THOC2 gene variants.
  • The molecular pathology underlying THOC2-related neurodevelopmental conditions remains largely uncharacterized.

Purpose of the Study:

  • To investigate the molecular mechanisms of THOC2 gene dysfunction in a neurodevelopmental disorder.
  • To generate and characterize a mouse model mimicking patient phenotypes associated with THOC2 variants.
  • To elucidate the cellular and molecular consequences of compromised THOC2/TREX complex function.

Main Methods:

  • Generation of a hypomorphic Thoc2 exon 37-38 deletion mouse model.
  • Phenotypic characterization of Thoc2 mutant mice, including behavioral and neurological assessments.
  • Analysis of brain development, R-loop accumulation, DNA damage, and cell death in Thoc2 mutant mice.

Main Results:

  • Thoc2 mutant mice exhibit reduced size, weight, and deficits in learning, memory, and sensorimotor functions.
  • Compromised THOC2/TREX function significantly impacts mouse brain development.
  • R-loop accumulation, DNA damage, and cell death are observed in the brains of Thoc2 mutant mice.

Conclusions:

  • Perturbed R-loop homeostasis and DNA damage are central to the pathophysiology of THOC2 syndrome.
  • The study provides insights into the molecular basis of THOC2-related neurodevelopmental disorders.
  • The mouse model serves as a valuable tool for further research into THOC2 syndrome and potential therapeutic strategies.