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:10.1038/s41467-023-40223-y

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

Research output: Contribution to journal › Article › Academic › peer-review

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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.

Original language	English
Article number	4499
Pages (from-to)	1-17
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-40223-y
Publication status	Published - 26 Jul 2023

Keywords

Brain
Ectoderm
Neural Crest
Signal Transduction
Ubiquitin

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s41467-023-40223-yFinal published version, 3.97 MBLicence: CC BY

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Asmar, A. J., Abrams, S. R., Hsin, J., Collins, J. C., Yazejian, R. M., Wu, Y., Cho, J., Doyle, A. D., Cinthala, S., Simon, M., van Jaarsveld, R. H., Beck, D. B., Kerosuo, L., & Werner, A. (2023). A ubiquitin-based effector-to-inhibitor switch coordinates early brain, craniofacial, and skin development. Nature Communications, 14(1), 1-17. Article 4499. https://doi.org/10.1038/s41467-023-40223-y

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

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.",

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

note = "Publisher Copyright: {\textcopyright} 2023, This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.",

year = "2023",

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day = "26",

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Asmar, AJ, Abrams, SR, Hsin, J, Collins, JC, Yazejian, RM, Wu, Y, Cho, J, Doyle, AD, Cinthala, S, Simon, M, van Jaarsveld, RH, Beck, DB, Kerosuo, L & Werner, A 2023, 'A ubiquitin-based effector-to-inhibitor switch coordinates early brain, craniofacial, and skin development', Nature Communications, vol. 14, no. 1, 4499, pp. 1-17. https://doi.org/10.1038/s41467-023-40223-y

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T1 - A ubiquitin-based effector-to-inhibitor switch coordinates early brain, craniofacial, and skin development

AU - Asmar, Anthony J

AU - Abrams, Shaun R

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AU - Yazejian, Rita M

AU - Wu, Youmei

AU - Cho, Jean

AU - Doyle, Andrew D

AU - Cinthala, Samhitha

AU - Simon, Marleen

AU - van Jaarsveld, Richard H

AU - Beck, David B

AU - Kerosuo, Laura

AU - Werner, Achim

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N2 - 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.

AB - 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.

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KW - Ectoderm

KW - Neural Crest

KW - Signal Transduction

KW - Ubiquitin

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DO - 10.1038/s41467-023-40223-y

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JO - Nature Communications

JF - Nature Communications

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M1 - 4499

ER -

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

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