Genome Biology (Jan 2024)

ARMC5 controls the degradation of most Pol II subunits, and ARMC5 mutation increases neural tube defect risks in mice and humans

  • Hongyu Luo,
  • Linjiang Lao,
  • Kit Sing Au,
  • Hope Northrup,
  • Xiao He,
  • Diane Forget,
  • Marie-Soleil Gauthier,
  • Benoit Coulombe,
  • Isabelle Bourdeau,
  • Wei Shi,
  • Lucia Gagliardi,
  • Maria Candida Barisson Villares Fragoso,
  • Junzheng Peng,
  • Jiangping Wu

DOI
https://doi.org/10.1186/s13059-023-03147-w
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 42

Abstract

Read online

Abstract Background Neural tube defects (NTDs) are caused by genetic and environmental factors. ARMC5 is part of a novel ubiquitin ligase specific for POLR2A, the largest subunit of RNA polymerase II (Pol II). Results We find that ARMC5 knockout mice have increased incidence of NTDs, such as spina bifida and exencephaly. Surprisingly, the absence of ARMC5 causes the accumulation of not only POLR2A but also most of the other 11 Pol II subunits, indicating that the degradation of the whole Pol II complex is compromised. The enlarged Pol II pool does not lead to generalized Pol II stalling or a generalized decrease in mRNA transcription. In neural progenitor cells, ARMC5 knockout only dysregulates 106 genes, some of which are known to be involved in neural tube development. FOLH1, critical in folate uptake and hence neural tube development, is downregulated in the knockout intestine. We also identify nine deleterious mutations in the ARMC5 gene in 511 patients with myelomeningocele, a severe form of spina bifida. These mutations impair the interaction between ARMC5 and Pol II and reduce Pol II ubiquitination. Conclusions Mutations in ARMC5 increase the risk of NTDs in mice and humans. ARMC5 is part of an E3 controlling the degradation of all 12 subunits of Pol II under physiological conditions. The Pol II pool size might have effects on NTD pathogenesis, and some of the effects might be via the downregulation of FOLH1. Additional mechanistic work is needed to establish the causal effect of the findings on NTD pathogenesis.

Keywords