The versatile functions of Sox9 in development, stem cells, and human diseases

The transcription factor Sox9 was first discovered in patients with campomelic dysplasia, a haploinsufficiency disorder with skeletal deformities caused by dysregulation of Sox9 expression during chondrogenesis. Since then, its role as a cell fate determiner during embryonic development has been wel...

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Autores principales: Jo, Alice, Denduluri, Sahitya, Zhang, Bosi, Wang, Zhongliang, Yin, Liangjun, Yan, Zhengjian, Kang, Richard, Shi, Lewis L., Mok, James, Lee, Michael J., Haydon, Rex C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Chongqing Medical University 2014
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4326072/
https://www.ncbi.nlm.nih.gov/pubmed/25685828
http://dx.doi.org/10.1016/j.gendis.2014.09.004
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author Jo, Alice
Denduluri, Sahitya
Zhang, Bosi
Wang, Zhongliang
Yin, Liangjun
Yan, Zhengjian
Kang, Richard
Shi, Lewis L.
Mok, James
Lee, Michael J.
Haydon, Rex C.
author_facet Jo, Alice
Denduluri, Sahitya
Zhang, Bosi
Wang, Zhongliang
Yin, Liangjun
Yan, Zhengjian
Kang, Richard
Shi, Lewis L.
Mok, James
Lee, Michael J.
Haydon, Rex C.
author_sort Jo, Alice
collection PubMed
description The transcription factor Sox9 was first discovered in patients with campomelic dysplasia, a haploinsufficiency disorder with skeletal deformities caused by dysregulation of Sox9 expression during chondrogenesis. Since then, its role as a cell fate determiner during embryonic development has been well characterized; Sox9 expression differentiates cells derived from all three germ layers into a large variety of specialized tissues and organs. However, recent data has shown that ectoderm- and endoderm-derived tissues continue to express Sox9 in mature organs and stem cell pools, suggesting its role in cell maintenance and specification during adult life. The versatility of Sox9 may be explained by a combination of post-transcriptional modifications, binding partners, and the tissue type in which it is expressed. Considering its importance during both development and adult life, it follows that dysregulation of Sox9 has been implicated in various congenital and acquired diseases, including fibrosis and cancer. This review provides a summary of the various roles of Sox9 in cell fate specification, stem cell biology, and related human diseases. Ultimately, understanding the mechanisms that regulate Sox9 will be crucial for developing effective therapies to treat disease caused by stem cell dysregulation or even reverse organ damage.
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spelling pubmed-43260722015-02-12 The versatile functions of Sox9 in development, stem cells, and human diseases Jo, Alice Denduluri, Sahitya Zhang, Bosi Wang, Zhongliang Yin, Liangjun Yan, Zhengjian Kang, Richard Shi, Lewis L. Mok, James Lee, Michael J. Haydon, Rex C. Genes Dis Article The transcription factor Sox9 was first discovered in patients with campomelic dysplasia, a haploinsufficiency disorder with skeletal deformities caused by dysregulation of Sox9 expression during chondrogenesis. Since then, its role as a cell fate determiner during embryonic development has been well characterized; Sox9 expression differentiates cells derived from all three germ layers into a large variety of specialized tissues and organs. However, recent data has shown that ectoderm- and endoderm-derived tissues continue to express Sox9 in mature organs and stem cell pools, suggesting its role in cell maintenance and specification during adult life. The versatility of Sox9 may be explained by a combination of post-transcriptional modifications, binding partners, and the tissue type in which it is expressed. Considering its importance during both development and adult life, it follows that dysregulation of Sox9 has been implicated in various congenital and acquired diseases, including fibrosis and cancer. This review provides a summary of the various roles of Sox9 in cell fate specification, stem cell biology, and related human diseases. Ultimately, understanding the mechanisms that regulate Sox9 will be crucial for developing effective therapies to treat disease caused by stem cell dysregulation or even reverse organ damage. Chongqing Medical University 2014-10-16 /pmc/articles/PMC4326072/ /pubmed/25685828 http://dx.doi.org/10.1016/j.gendis.2014.09.004 Text en Copyright © 2014, Chongqing Medical University. Production and hosting by Elsevier B.V. All rights reserved. http://creativecommons.org/licenses/by-nc-nd/3.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/3.0/).
spellingShingle Article
Jo, Alice
Denduluri, Sahitya
Zhang, Bosi
Wang, Zhongliang
Yin, Liangjun
Yan, Zhengjian
Kang, Richard
Shi, Lewis L.
Mok, James
Lee, Michael J.
Haydon, Rex C.
The versatile functions of Sox9 in development, stem cells, and human diseases
title The versatile functions of Sox9 in development, stem cells, and human diseases
title_full The versatile functions of Sox9 in development, stem cells, and human diseases
title_fullStr The versatile functions of Sox9 in development, stem cells, and human diseases
title_full_unstemmed The versatile functions of Sox9 in development, stem cells, and human diseases
title_short The versatile functions of Sox9 in development, stem cells, and human diseases
title_sort versatile functions of sox9 in development, stem cells, and human diseases
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4326072/
https://www.ncbi.nlm.nih.gov/pubmed/25685828
http://dx.doi.org/10.1016/j.gendis.2014.09.004
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