A gene expression signature shared by human mature oocytes and embryonic stem cells

A gene expression signature shared by human mature oocytes and embryonic stem cells

<p>Abstract</p> <p>Background</p> <p>The first week of human pre-embryo development is characterized by the induction of totipotency and then pluripotency. The understanding of this delicate process will have far reaching implication for in vitro fertilization and regen...

Full description

Bibliographic Details
Main Authors: Pantesco Véronique, Tondeur Sylvie, Cerecedo Doris, Assou Said, Hovatta Outi, Klein Bernard, Hamamah Samir, De Vos John
Format: Article
Language:English
Published: BMC 2009-01-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/10/10
id doaj-f115e83f88fc4aafb45a709cf0306423
record_format Article
spelling doaj-f115e83f88fc4aafb45a709cf03064232020-11-25T01:41:36ZengBMCBMC Genomics1471-21642009-01-011011010.1186/1471-2164-10-10A gene expression signature shared by human mature oocytes and embryonic stem cellsPantesco VéroniqueTondeur SylvieCerecedo DorisAssou SaidHovatta OutiKlein BernardHamamah SamirDe Vos John<p>Abstract</p> <p>Background</p> <p>The first week of human pre-embryo development is characterized by the induction of totipotency and then pluripotency. The understanding of this delicate process will have far reaching implication for in vitro fertilization and regenerative medicine. Human mature MII oocytes and embryonic stem (ES) cells are both able to achieve the feat of cell reprogramming towards pluripotency, either by somatic cell nuclear transfer or by cell fusion, respectively. Comparison of the transcriptome of these two cell types may highlight genes that are involved in pluripotency initiation.</p> <p>Results</p> <p>Based on a microarray compendium of 205 samples, we compared the gene expression profile of mature MII oocytes and human ES cells (hESC) to that of somatic tissues. We identified a common oocyte/hESC gene expression profile, which included a strong cell cycle signature, genes associated with pluripotency such as <it>LIN28 </it>and <it>TDGF1</it>, a large chromatin remodelling network (<it>TOP2A, DNMT3B, JARID2, SMARCA5, CBX1, CBX5</it>), 18 different zinc finger transcription factors, including <it>ZNF84</it>, and several still poorly annotated genes such as <it>KLHL7</it>, <it>MRS2</it>, or the Selenophosphate synthetase 1 (<it>SEPHS1</it>). Interestingly, a large set of genes was also found to code for proteins involved in the ubiquitination and proteasome pathway. Upon hESC differentiation into embryoid bodies, the transcription of this pathway declined. In vitro, we observed a selective sensitivity of hESC to the inhibition of the activity of the proteasome.</p> <p>Conclusion</p> <p>These results shed light on the gene networks that are concurrently overexpressed by the two human cell types with somatic cell reprogramming properties.</p> http://www.biomedcentral.com/1471-2164/10/10
collection DOAJ
language English
format Article
sources DOAJ
author Pantesco Véronique
Tondeur Sylvie
Cerecedo Doris
Assou Said
Hovatta Outi
Klein Bernard
Hamamah Samir
De Vos John
spellingShingle Pantesco Véronique
Tondeur Sylvie
Cerecedo Doris
Assou Said
Hovatta Outi
Klein Bernard
Hamamah Samir
De Vos John
A gene expression signature shared by human mature oocytes and embryonic stem cells
BMC Genomics
author_facet Pantesco Véronique
Tondeur Sylvie
Cerecedo Doris
Assou Said
Hovatta Outi
Klein Bernard
Hamamah Samir
De Vos John
author_sort Pantesco Véronique
title A gene expression signature shared by human mature oocytes and embryonic stem cells
title_short A gene expression signature shared by human mature oocytes and embryonic stem cells
title_full A gene expression signature shared by human mature oocytes and embryonic stem cells
title_fullStr A gene expression signature shared by human mature oocytes and embryonic stem cells
title_full_unstemmed A gene expression signature shared by human mature oocytes and embryonic stem cells
title_sort gene expression signature shared by human mature oocytes and embryonic stem cells
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2009-01-01
description <p>Abstract</p> <p>Background</p> <p>The first week of human pre-embryo development is characterized by the induction of totipotency and then pluripotency. The understanding of this delicate process will have far reaching implication for in vitro fertilization and regenerative medicine. Human mature MII oocytes and embryonic stem (ES) cells are both able to achieve the feat of cell reprogramming towards pluripotency, either by somatic cell nuclear transfer or by cell fusion, respectively. Comparison of the transcriptome of these two cell types may highlight genes that are involved in pluripotency initiation.</p> <p>Results</p> <p>Based on a microarray compendium of 205 samples, we compared the gene expression profile of mature MII oocytes and human ES cells (hESC) to that of somatic tissues. We identified a common oocyte/hESC gene expression profile, which included a strong cell cycle signature, genes associated with pluripotency such as <it>LIN28 </it>and <it>TDGF1</it>, a large chromatin remodelling network (<it>TOP2A, DNMT3B, JARID2, SMARCA5, CBX1, CBX5</it>), 18 different zinc finger transcription factors, including <it>ZNF84</it>, and several still poorly annotated genes such as <it>KLHL7</it>, <it>MRS2</it>, or the Selenophosphate synthetase 1 (<it>SEPHS1</it>). Interestingly, a large set of genes was also found to code for proteins involved in the ubiquitination and proteasome pathway. Upon hESC differentiation into embryoid bodies, the transcription of this pathway declined. In vitro, we observed a selective sensitivity of hESC to the inhibition of the activity of the proteasome.</p> <p>Conclusion</p> <p>These results shed light on the gene networks that are concurrently overexpressed by the two human cell types with somatic cell reprogramming properties.</p>
url http://www.biomedcentral.com/1471-2164/10/10
work_keys_str_mv AT pantescoveronique ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT tondeursylvie ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT cerecedodoris ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT assousaid ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT hovattaouti ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT kleinbernard ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT hamamahsamir ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT devosjohn ageneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT pantescoveronique geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT tondeursylvie geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT cerecedodoris geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT assousaid geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT hovattaouti geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT kleinbernard geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT hamamahsamir geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
AT devosjohn geneexpressionsignaturesharedbyhumanmatureoocytesandembryonicstemcells
_version_ 1725040712285683712

Similar Items