The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal

Prdm1 mutant mice are one of the rare mutant strains that do not develop whisker hair follicles while still displaying a pelage. Here, we show that Prdm1 is expressed at the earliest stage of whisker development in clusters of mesenchymal cells before placode formation. Its conditional knockout in t...

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Autores principales: Manti, Pierluigi G., Darbellay, Fabrice, Leleu, Marion, Coughlan, Aisling Y., Moret, Bernard, Cuennet, Julien, Droux, Frederic, Stoudmann, Magali, Mancini, Gian-Filippo, Hautier, Agnès, Sordet-Dessimoz, Jessica, Vincent, Stephane D., Testa, Giuseppe, Cossu, Giulio, Barrandon, Yann
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9599752/
https://www.ncbi.nlm.nih.gov/pubmed/36289911
http://dx.doi.org/10.3390/biomedicines10102647
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author Manti, Pierluigi G.
Darbellay, Fabrice
Leleu, Marion
Coughlan, Aisling Y.
Moret, Bernard
Cuennet, Julien
Droux, Frederic
Stoudmann, Magali
Mancini, Gian-Filippo
Hautier, Agnès
Sordet-Dessimoz, Jessica
Vincent, Stephane D.
Testa, Giuseppe
Cossu, Giulio
Barrandon, Yann
author_facet Manti, Pierluigi G.
Darbellay, Fabrice
Leleu, Marion
Coughlan, Aisling Y.
Moret, Bernard
Cuennet, Julien
Droux, Frederic
Stoudmann, Magali
Mancini, Gian-Filippo
Hautier, Agnès
Sordet-Dessimoz, Jessica
Vincent, Stephane D.
Testa, Giuseppe
Cossu, Giulio
Barrandon, Yann
author_sort Manti, Pierluigi G.
collection PubMed
description Prdm1 mutant mice are one of the rare mutant strains that do not develop whisker hair follicles while still displaying a pelage. Here, we show that Prdm1 is expressed at the earliest stage of whisker development in clusters of mesenchymal cells before placode formation. Its conditional knockout in the murine soma leads to the loss of expression of Bmp2, Shh, Bmp4, Krt17, Edar, and Gli1, though leaving the β-catenin-driven first dermal signal intact. Furthermore, we show that Prdm1 expressing cells not only act as a signaling center but also as a multipotent progenitor population contributing to the several lineages of the adult whisker. We confirm by genetic ablation experiments that the absence of macro vibrissae reverberates on the organization of nerve wiring in the mystacial pads and leads to the reorganization of the barrel cortex. We demonstrate that Lef1 acts upstream of Prdm1 and identify a primate-specific deletion of a Lef1 enhancer named Leaf. This loss may have been significant in the evolutionary process, leading to the progressive defunctionalization and disappearance of vibrissae in primates.
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spelling pubmed-95997522022-10-27 The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal Manti, Pierluigi G. Darbellay, Fabrice Leleu, Marion Coughlan, Aisling Y. Moret, Bernard Cuennet, Julien Droux, Frederic Stoudmann, Magali Mancini, Gian-Filippo Hautier, Agnès Sordet-Dessimoz, Jessica Vincent, Stephane D. Testa, Giuseppe Cossu, Giulio Barrandon, Yann Biomedicines Article Prdm1 mutant mice are one of the rare mutant strains that do not develop whisker hair follicles while still displaying a pelage. Here, we show that Prdm1 is expressed at the earliest stage of whisker development in clusters of mesenchymal cells before placode formation. Its conditional knockout in the murine soma leads to the loss of expression of Bmp2, Shh, Bmp4, Krt17, Edar, and Gli1, though leaving the β-catenin-driven first dermal signal intact. Furthermore, we show that Prdm1 expressing cells not only act as a signaling center but also as a multipotent progenitor population contributing to the several lineages of the adult whisker. We confirm by genetic ablation experiments that the absence of macro vibrissae reverberates on the organization of nerve wiring in the mystacial pads and leads to the reorganization of the barrel cortex. We demonstrate that Lef1 acts upstream of Prdm1 and identify a primate-specific deletion of a Lef1 enhancer named Leaf. This loss may have been significant in the evolutionary process, leading to the progressive defunctionalization and disappearance of vibrissae in primates. MDPI 2022-10-20 /pmc/articles/PMC9599752/ /pubmed/36289911 http://dx.doi.org/10.3390/biomedicines10102647 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Manti, Pierluigi G.
Darbellay, Fabrice
Leleu, Marion
Coughlan, Aisling Y.
Moret, Bernard
Cuennet, Julien
Droux, Frederic
Stoudmann, Magali
Mancini, Gian-Filippo
Hautier, Agnès
Sordet-Dessimoz, Jessica
Vincent, Stephane D.
Testa, Giuseppe
Cossu, Giulio
Barrandon, Yann
The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal
title The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal
title_full The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal
title_fullStr The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal
title_full_unstemmed The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal
title_short The Transcriptional Regulator Prdm1 Is Essential for the Early Development of the Sensory Whisker Follicle and Is Linked to the Beta-Catenin First Dermal Signal
title_sort transcriptional regulator prdm1 is essential for the early development of the sensory whisker follicle and is linked to the beta-catenin first dermal signal
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9599752/
https://www.ncbi.nlm.nih.gov/pubmed/36289911
http://dx.doi.org/10.3390/biomedicines10102647
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