Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation

The TALE (Three Amino acid Loop Extension) family consisting of Meis, Pbx and Pknox proteins is a group of transcriptional co-factors with atypical homeodomains that play pivotal roles in limb development. Compared to the in-depth investigations of Meis and Pbx protein functions, the role of Pknox2...

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Autores principales: Zhou, Wenrong, Zhu, Huang, Zhao, Jianzhi, Li, Hanjun, Wan, Yong, Cao, Jingjing, Zhao, Haixia, Yu, Jian, Zhou, Rujiang, Yao, Yiyun, Zhang, Lingling, Wang, Lifang, He, Lin, Ma, Gang, Yao, Zhengju, Guo, Xizhi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3661445/
https://www.ncbi.nlm.nih.gov/pubmed/23717575
http://dx.doi.org/10.1371/journal.pone.0064237
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author Zhou, Wenrong
Zhu, Huang
Zhao, Jianzhi
Li, Hanjun
Wan, Yong
Cao, Jingjing
Zhao, Haixia
Yu, Jian
Zhou, Rujiang
Yao, Yiyun
Zhang, Lingling
Wang, Lifang
He, Lin
Ma, Gang
Yao, Zhengju
Guo, Xizhi
author_facet Zhou, Wenrong
Zhu, Huang
Zhao, Jianzhi
Li, Hanjun
Wan, Yong
Cao, Jingjing
Zhao, Haixia
Yu, Jian
Zhou, Rujiang
Yao, Yiyun
Zhang, Lingling
Wang, Lifang
He, Lin
Ma, Gang
Yao, Zhengju
Guo, Xizhi
author_sort Zhou, Wenrong
collection PubMed
description The TALE (Three Amino acid Loop Extension) family consisting of Meis, Pbx and Pknox proteins is a group of transcriptional co-factors with atypical homeodomains that play pivotal roles in limb development. Compared to the in-depth investigations of Meis and Pbx protein functions, the role of Pknox2 in limb development remains unclear. Here, we showed that Pknox2 was mainly expressed in the zeugopod domain of the murine limb at E10.5 and E11.5. Misexpression of Pknox2 in the limb bud mesenchyme of transgenic mice led to deformities in the zeugopod and forelimb stylopod deltoid crest, but left the autopod and other stylopod skeletons largely intact. These malformations in zeugopod skeletons were recapitulated in mice overexpressing Pknox2 in osteochondroprogenitor cells. Molecular and cellular analyses indicated that the misexpression of Pknox2 in limb bud mesenchyme perturbed the Hox10-11 gene expression profiles, decreased Col2 expression and Bmp/Smad signaling activity in the limb. These results indicated that Pknox2 misexpression affected mesenchymal condensation and early chondrogenic differentiation in the zeugopod skeletons of transgenic embryos, suggesting Pknox2 as a potential regulator of zeugopod and deltoid crest formation.
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spelling pubmed-36614452013-05-28 Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation Zhou, Wenrong Zhu, Huang Zhao, Jianzhi Li, Hanjun Wan, Yong Cao, Jingjing Zhao, Haixia Yu, Jian Zhou, Rujiang Yao, Yiyun Zhang, Lingling Wang, Lifang He, Lin Ma, Gang Yao, Zhengju Guo, Xizhi PLoS One Research Article The TALE (Three Amino acid Loop Extension) family consisting of Meis, Pbx and Pknox proteins is a group of transcriptional co-factors with atypical homeodomains that play pivotal roles in limb development. Compared to the in-depth investigations of Meis and Pbx protein functions, the role of Pknox2 in limb development remains unclear. Here, we showed that Pknox2 was mainly expressed in the zeugopod domain of the murine limb at E10.5 and E11.5. Misexpression of Pknox2 in the limb bud mesenchyme of transgenic mice led to deformities in the zeugopod and forelimb stylopod deltoid crest, but left the autopod and other stylopod skeletons largely intact. These malformations in zeugopod skeletons were recapitulated in mice overexpressing Pknox2 in osteochondroprogenitor cells. Molecular and cellular analyses indicated that the misexpression of Pknox2 in limb bud mesenchyme perturbed the Hox10-11 gene expression profiles, decreased Col2 expression and Bmp/Smad signaling activity in the limb. These results indicated that Pknox2 misexpression affected mesenchymal condensation and early chondrogenic differentiation in the zeugopod skeletons of transgenic embryos, suggesting Pknox2 as a potential regulator of zeugopod and deltoid crest formation. Public Library of Science 2013-05-22 /pmc/articles/PMC3661445/ /pubmed/23717575 http://dx.doi.org/10.1371/journal.pone.0064237 Text en © 2013 Zhou et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Zhou, Wenrong
Zhu, Huang
Zhao, Jianzhi
Li, Hanjun
Wan, Yong
Cao, Jingjing
Zhao, Haixia
Yu, Jian
Zhou, Rujiang
Yao, Yiyun
Zhang, Lingling
Wang, Lifang
He, Lin
Ma, Gang
Yao, Zhengju
Guo, Xizhi
Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation
title Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation
title_full Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation
title_fullStr Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation
title_full_unstemmed Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation
title_short Misexpression of Pknox2 in Mouse Limb Bud Mesenchyme Perturbs Zeugopod Development and Deltoid Crest Formation
title_sort misexpression of pknox2 in mouse limb bud mesenchyme perturbs zeugopod development and deltoid crest formation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3661445/
https://www.ncbi.nlm.nih.gov/pubmed/23717575
http://dx.doi.org/10.1371/journal.pone.0064237
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