Nature Communications (Jul 2023)

A ubiquitin-based effector-to-inhibitor switch coordinates early brain, craniofacial, and skin development

  • Anthony J. Asmar,
  • Shaun R. Abrams,
  • Jenny Hsin,
  • Jason C. Collins,
  • Rita M. Yazejian,
  • Youmei Wu,
  • Jean Cho,
  • Andrew D. Doyle,
  • Samhitha Cinthala,
  • Marleen Simon,
  • Richard H. van Jaarsveld,
  • David B. Beck,
  • Laura Kerosuo,
  • Achim Werner

DOI
https://doi.org/10.1038/s41467-023-40223-y
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 17

Abstract

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Abstract The molecular mechanisms that coordinate patterning of the embryonic ectoderm into spatially distinct lineages to form the nervous system, epidermis, and neural crest-derived craniofacial structures are unclear. Here, biochemical disease-variant profiling reveals a posttranslational pathway that drives early ectodermal differentiation in the vertebrate head. The anteriorly expressed ubiquitin ligase CRL3-KLHL4 restricts signaling of the ubiquitous cytoskeletal regulator CDC42. This regulation relies on the CDC42-activating complex GIT1-βPIX, which CRL3-KLHL4 exploits as a substrate-specific co-adaptor to recognize and monoubiquitylate PAK1. Surprisingly, we find that ubiquitylation converts the canonical CDC42 effector PAK1 into a CDC42 inhibitor. Loss of CRL3-KLHL4 or a disease-associated KLHL4 variant reduce PAK1 ubiquitylation causing overactivation of CDC42 signaling and defective ectodermal patterning and neurulation. Thus, tissue-specific restriction of CDC42 signaling by a ubiquitin-based effector-to-inhibitor is essential for early face, brain, and skin formation, revealing how cell-fate and morphometric changes are coordinated to ensure faithful organ development.