Nature Communications (Oct 2023)

Conserved enhancers control notochord expression of vertebrate Brachyury

  • Cassie L. Kemmler,
  • Jana Smolikova,
  • Hannah R. Moran,
  • Brandon J. Mannion,
  • Dunja Knapp,
  • Fabian Lim,
  • Anna Czarkwiani,
  • Viviana Hermosilla Aguayo,
  • Vincent Rapp,
  • Olivia E. Fitch,
  • Seraina Bötschi,
  • Licia Selleri,
  • Emma Farley,
  • Ingo Braasch,
  • Maximina Yun,
  • Axel Visel,
  • Marco Osterwalder,
  • Christian Mosimann,
  • Zbynek Kozmik,
  • Alexa Burger

DOI
https://doi.org/10.1038/s41467-023-42151-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 18

Abstract

Read online

Abstract The cell type-specific expression of key transcription factors is central to development and disease. Brachyury/T/TBXT is a major transcription factor for gastrulation, tailbud patterning, and notochord formation; however, how its expression is controlled in the mammalian notochord has remained elusive. Here, we identify the complement of notochord-specific enhancers in the mammalian Brachyury/T/TBXT gene. Using transgenic assays in zebrafish, axolotl, and mouse, we discover three conserved Brachyury-controlling notochord enhancers, T3, C, and I, in human, mouse, and marsupial genomes. Acting as Brachyury-responsive, auto-regulatory shadow enhancers, in cis deletion of all three enhancers in mouse abolishes Brachyury/T/Tbxt expression selectively in the notochord, causing specific trunk and neural tube defects without gastrulation or tailbud defects. The three Brachyury-driving notochord enhancers are conserved beyond mammals in the brachyury/tbxtb loci of fishes, dating their origin to the last common ancestor of jawed vertebrates. Our data define the vertebrate enhancers for Brachyury/T/TBXTB notochord expression through an auto-regulatory mechanism that conveys robustness and adaptability as ancient basis for axis development.