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The Capicua C1 Domain is Required for Full Activity of the CIC::DUX4 Fusion Oncoprotein.

Cuyler LuckKyle A JacobsRoss A Okimoto
Published in: bioRxiv : the preprint server for biology (2024)
Rearrangements between genes can yield neomorphic fusions that drive oncogenesis. Fusion oncogenes are made up of fractional segments of the partner genes that comprise them, with each partner potentially contributing some of its own function to the nascent fusion oncoprotein. Clinically, fusion oncoproteins driving one diagnostic entity are typically clustered into a single molecular subset and are often treated a similar fashion. However, knowledge of where specific fusion breakpoints occur in partner genes, and the resulting retention of functional domains in the fusion, is an important determinant of fusion oncoprotein activity and may differ between patients. This study investigates this phenomena through the example of CIC::DUX4, a fusion between the transcriptional repressor capicua ( CIC ) and the double homeobox 4 gene ( DUX4 ), which drives an aggressive subset of undifferentiated round cell sarcoma. Using a harmonized dataset of over 100 patient fusion breakpoints from the literature, we show that most bona fide CIC::DUX4 fusions retain the C1 domain, which is known to contribute to DNA binding by wild type CIC. Mechanistically, deletion or mutation of the C1 domain reduces, but does not eliminate, activation of CIC target genes by CIC::DUX4. We also find that expression of C1-deleted CIC::DUX4 is capable of exerting intermediate transformation-related phenotypes compared with those imparted by full-length CIC::DUX4, but was not sufficient for tumorigenesis in a subcutaneous mouse model. In summary, our results suggest a supercharging role for the C1 domain in the activity of CIC::DUX4.
Keyphrases
  • genome wide
  • mouse model
  • dna binding
  • systematic review
  • transcription factor
  • newly diagnosed
  • end stage renal disease
  • stem cells
  • case report
  • mesenchymal stem cells
  • copy number
  • wild type
  • cell therapy
  • oxidative stress