PLoS Genetics (Dec 2021)

HES1 is a novel downstream modifier of the SHH-GLI3 Axis in the development of preaxial polydactyly.

  • Deepika Sharma,
  • Anthony J Mirando,
  • Abigail Leinroth,
  • Jason T Long,
  • Courtney M Karner,
  • Matthew J Hilton

DOI
https://doi.org/10.1371/journal.pgen.1009982
Journal volume & issue
Vol. 17, no. 12
p. e1009982

Abstract

Read online

Sonic Hedgehog/GLI3 signaling is critical in regulating digit number, such that Gli3-deficiency results in polydactyly and Shh-deficiency leads to digit number reductions. SHH/GLI3 signaling regulates cell cycle factors controlling mesenchymal cell proliferation, while simultaneously regulating Grem1 to coordinate BMP-induced chondrogenesis. SHH/GLI3 signaling also coordinates the expression of additional genes, however their importance in digit formation remain unknown. Utilizing genetic and molecular approaches, we identified HES1 as a downstream modifier of the SHH/GLI signaling axis capable of inducing preaxial polydactyly (PPD), required for Gli3-deficient PPD, and capable of overcoming digit number constraints of Shh-deficiency. Our data indicate that HES1, a direct SHH/GLI signaling target, induces mesenchymal cell proliferation via suppression of Cdkn1b, while inhibiting chondrogenic genes and the anterior autopod boundary regulator, Pax9. These findings establish HES1 as a critical downstream effector of SHH/GLI3 signaling in the development of PPD.