Ciliary and extraciliary gpr161 pools repress hedgehog signaling in a tissue-specific manner

Sun Hee Hwang; Bandarigoda N. Somatilaka; Kevin White; Saikat Mukhopadhyay

doi:10.7554/ELIFE.67121

Ciliary and extraciliary gpr161 pools repress hedgehog signaling in a tissue-specific manner

Sun Hee Hwang, Bandarigoda N. Somatilaka, Kevin White, Saikat Mukhopadhyay

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

7 Scopus citations

Abstract

The role of compartmentalized signaling in primary cilia during tissue morphogenesis is not well understood. The cilia-localized G-protein-coupled receptor—Gpr161 represses hedgehog pathway via cAMP signaling. We engineered a knock-in at Gpr161 locus in mice to generate a variant (Gpr161^mut1), which was ciliary localization defective but cAMP signaling competent. Tissue phenotypes from hedgehog signaling depend on downstream bifunctional Gli transcriptional factors functioning as activators/repressors. Compared to knockout (ko), Gpr161^mut1/ko had delayed embryonic lethality, moderately increased hedgehog targets and partially down-regulated Gli3-repressor. Unlike ko, the Gpr161^mut1/ko neural tube did not show Gli2-activator-dependent expansion of ventral-most progenitors. Instead, the intermediate neural tube showed progenitor expansion that depends on loss of Gli3-repressor. Increased extraciliary receptor (Gpr161^mut1/mut1) prevented ventralization. Morphogenesis in limb buds and midface requires Gli-repressor; these tissues in Gpr161^mut1/mut1 manifested hedgehog hyperactivation phenotypes—polydactyly and midfacial widening. Thus, ciliary and extraciliary Gpr161 pools likely establish tissue-specific Gli-repressor thresholds in determining morpho-phenotypic outcomes.

Original language	English (US)
Journal	eLife
Volume	10
DOIs	https://doi.org/10.7554/ELIFE.67121
State	Published - 2021

Keywords

CAMP
Cilia
Craniofacial
Gli repressor
Gpr161
Hedgehog
Limb bud
Neural tube
Polydactyly, morphogenesis

ASJC Scopus subject areas

Neuroscience(all)
Biochemistry, Genetics and Molecular Biology(all)
Immunology and Microbiology(all)

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10.7554/ELIFE.67121

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@article{d81e112586054f4a8beb299e9d88e6dd,

title = "Ciliary and extraciliary gpr161 pools repress hedgehog signaling in a tissue-specific manner",

abstract = "The role of compartmentalized signaling in primary cilia during tissue morphogenesis is not well understood. The cilia-localized G-protein-coupled receptor—Gpr161 represses hedgehog pathway via cAMP signaling. We engineered a knock-in at Gpr161 locus in mice to generate a variant (Gpr161mut1), which was ciliary localization defective but cAMP signaling competent. Tissue phenotypes from hedgehog signaling depend on downstream bifunctional Gli transcriptional factors functioning as activators/repressors. Compared to knockout (ko), Gpr161mut1/ko had delayed embryonic lethality, moderately increased hedgehog targets and partially down-regulated Gli3-repressor. Unlike ko, the Gpr161mut1/ko neural tube did not show Gli2-activator-dependent expansion of ventral-most progenitors. Instead, the intermediate neural tube showed progenitor expansion that depends on loss of Gli3-repressor. Increased extraciliary receptor (Gpr161mut1/mut1) prevented ventralization. Morphogenesis in limb buds and midface requires Gli-repressor; these tissues in Gpr161mut1/mut1 manifested hedgehog hyperactivation phenotypes—polydactyly and midfacial widening. Thus, ciliary and extraciliary Gpr161 pools likely establish tissue-specific Gli-repressor thresholds in determining morpho-phenotypic outcomes.",

keywords = "CAMP, Cilia, Craniofacial, Gli repressor, Gpr161, Hedgehog, Limb bud, Neural tube, Polydactyly, morphogenesis",

author = "Hwang, {Sun Hee} and Somatilaka, {Bandarigoda N.} and Kevin White and Saikat Mukhopadhyay",

note = "Funding Information: This paper is dedicated to the memory of Kathryn Anderson, who has been a constant source of encouragement and inspiration in our studies on ciliary signaling. This project was funded by Alex{\textquoteright}s Lemonade Foundation (A-grant to S.M.), and National Institutes of Health (1R01GM113023 to SM). We thank UT Southwestern transgenic and mouse animal care facility. We are thankful for kind gifts of reagents from Rajat Rohatgi, Robert Lefkowitz, Jonathan Eggenschwiler, Andrew McMahon, Deanna Grant, Andrew Peterson, Steven Vokes and Xin Sun. We thank Mukhopadhyay lab members for comments on the manuscript. Monoclonal antibodies developed by O. D. Madsen (Nkx6.1) and A. Kawakami (Pax7) were obtained from the Developmental Studies Hybridoma Bank developed under the auspices of the NICHD and maintained by the Department of Biological Sciences, the University of Iowa, Iowa City IA 52242, USA. Publisher Copyright: {\textcopyright} 2021, eLife Sciences Publications Ltd. All rights reserved.",

year = "2021",

doi = "10.7554/ELIFE.67121",

language = "English (US)",

volume = "10",

journal = "eLife",

issn = "2050-084X",

publisher = "eLife Sciences Publications",

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TY - JOUR

T1 - Ciliary and extraciliary gpr161 pools repress hedgehog signaling in a tissue-specific manner

AU - Hwang, Sun Hee

AU - Somatilaka, Bandarigoda N.

AU - White, Kevin

AU - Mukhopadhyay, Saikat

N1 - Funding Information: This paper is dedicated to the memory of Kathryn Anderson, who has been a constant source of encouragement and inspiration in our studies on ciliary signaling. This project was funded by Alex’s Lemonade Foundation (A-grant to S.M.), and National Institutes of Health (1R01GM113023 to SM). We thank UT Southwestern transgenic and mouse animal care facility. We are thankful for kind gifts of reagents from Rajat Rohatgi, Robert Lefkowitz, Jonathan Eggenschwiler, Andrew McMahon, Deanna Grant, Andrew Peterson, Steven Vokes and Xin Sun. We thank Mukhopadhyay lab members for comments on the manuscript. Monoclonal antibodies developed by O. D. Madsen (Nkx6.1) and A. Kawakami (Pax7) were obtained from the Developmental Studies Hybridoma Bank developed under the auspices of the NICHD and maintained by the Department of Biological Sciences, the University of Iowa, Iowa City IA 52242, USA. Publisher Copyright: © 2021, eLife Sciences Publications Ltd. All rights reserved.

PY - 2021

Y1 - 2021

N2 - The role of compartmentalized signaling in primary cilia during tissue morphogenesis is not well understood. The cilia-localized G-protein-coupled receptor—Gpr161 represses hedgehog pathway via cAMP signaling. We engineered a knock-in at Gpr161 locus in mice to generate a variant (Gpr161mut1), which was ciliary localization defective but cAMP signaling competent. Tissue phenotypes from hedgehog signaling depend on downstream bifunctional Gli transcriptional factors functioning as activators/repressors. Compared to knockout (ko), Gpr161mut1/ko had delayed embryonic lethality, moderately increased hedgehog targets and partially down-regulated Gli3-repressor. Unlike ko, the Gpr161mut1/ko neural tube did not show Gli2-activator-dependent expansion of ventral-most progenitors. Instead, the intermediate neural tube showed progenitor expansion that depends on loss of Gli3-repressor. Increased extraciliary receptor (Gpr161mut1/mut1) prevented ventralization. Morphogenesis in limb buds and midface requires Gli-repressor; these tissues in Gpr161mut1/mut1 manifested hedgehog hyperactivation phenotypes—polydactyly and midfacial widening. Thus, ciliary and extraciliary Gpr161 pools likely establish tissue-specific Gli-repressor thresholds in determining morpho-phenotypic outcomes.

AB - The role of compartmentalized signaling in primary cilia during tissue morphogenesis is not well understood. The cilia-localized G-protein-coupled receptor—Gpr161 represses hedgehog pathway via cAMP signaling. We engineered a knock-in at Gpr161 locus in mice to generate a variant (Gpr161mut1), which was ciliary localization defective but cAMP signaling competent. Tissue phenotypes from hedgehog signaling depend on downstream bifunctional Gli transcriptional factors functioning as activators/repressors. Compared to knockout (ko), Gpr161mut1/ko had delayed embryonic lethality, moderately increased hedgehog targets and partially down-regulated Gli3-repressor. Unlike ko, the Gpr161mut1/ko neural tube did not show Gli2-activator-dependent expansion of ventral-most progenitors. Instead, the intermediate neural tube showed progenitor expansion that depends on loss of Gli3-repressor. Increased extraciliary receptor (Gpr161mut1/mut1) prevented ventralization. Morphogenesis in limb buds and midface requires Gli-repressor; these tissues in Gpr161mut1/mut1 manifested hedgehog hyperactivation phenotypes—polydactyly and midfacial widening. Thus, ciliary and extraciliary Gpr161 pools likely establish tissue-specific Gli-repressor thresholds in determining morpho-phenotypic outcomes.

KW - CAMP

KW - Cilia

KW - Craniofacial

KW - Gli repressor

KW - Gpr161

KW - Hedgehog

KW - Limb bud

KW - Neural tube

KW - Polydactyly, morphogenesis

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UR - http://www.scopus.com/inward/citedby.url?scp=85113139001&partnerID=8YFLogxK

U2 - 10.7554/ELIFE.67121

DO - 10.7554/ELIFE.67121

M3 - Article

C2 - 34346313

AN - SCOPUS:85113139001

SN - 2050-084X

VL - 10

JO - eLife

JF - eLife

ER -

Ciliary and extraciliary gpr161 pools repress hedgehog signaling in a tissue-specific manner

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Keywords

ASJC Scopus subject areas

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