Three LIF-dependent signatures and gene clusters with atypical expression profiles, identified by transcriptome studies in mouse ES cells and early derivatives

BackgroundMouse embryonic stem (ES) cells remain pluripotent in vitro when grown in the presence of the cytokine Leukaemia Inhibitory Factor (LIF). Identification of LIF targets and of genes regulating the transition between pluripotent and early differentiated cells is a critical step for understanding the control of ES cell pluripotency.ResultsBy gene profiling studies carried out with mRNAs from ES cells and their early derivatives treated or not with LIF, we have identified i) LIF-dependent genes, highly expressed in pluripotent cells, whose expression level decreases sharply upon LIF withdrawal [Pluri genes], ii) LIF induced genes [Lifind genes] whose expression is differentially regulated depending upon cell context and iii) genes specific to the reversible or irreversible committed states. In addition, by hierarchical gene clustering, we have identified, among eight independent gene clusters, two atypical groups of genes, whose expression level was highly modulated in committed cells only. Computer based analyses led to the characterization of different sub-types of Pluri and Lifind genes, and revealed their differential modulation by Oct4 or Nanog master genes. Individual knock down of a selection of Pluri and Lifind genes leads to weak changes in the expression of early differentiation markers, in cell growth conditions in which these master genes are still expressed.ConclusionWe have identified different sets of LIF-regulated genes depending upon the cell state (reversible or irreversible commitment), which allowed us to present a novel global view of LIF responses. We are also reporting on the identification of genes whose expression is strictly regulated during the commitment step. Furthermore, our studies identify sub-networks of genes with a restricted expression in pluripotent ES cells, whose down regulation occurs while the master knot (composed of OCT4, SOX2 and NANOG) is still expressed and which might be down-regulated together for driving cells towards differentiation.

[1]  Warren S Alexander,et al.  Absence of Suppressor of Cytokine Signalling 3 Reduces Self‐Renewal and Promotes Differentiation in Murine Embryonic Stem Cells , 2006, Stem cells.

[2]  Austin G Smith,et al.  Self-renewal of teratocarcinoma and embryonic stem cells , 2004, Oncogene.

[3]  H. Niwa,et al.  Identification and characterization of subpopulations in undifferentiated ES cell culture , 2008, Development.

[4]  Xi Chen,et al.  Jmjd1a and Jmjd2c histone H3 Lys 9 demethylases regulate self-renewal in embryonic stem cells. , 2007, Genes & development.

[5]  C. Strock,et al.  The Ras/Raf/MEK/Extracellular Signal-Regulated Kinase Pathway Induces Autocrine-Paracrine Growth Inhibition via the Leukemia Inhibitory Factor/JAK/STAT Pathway , 2003, Molecular and Cellular Biology.

[6]  J. Nichols,et al.  Nanog safeguards pluripotency and mediates germline development , 2007, Nature.

[7]  D. Botstein,et al.  Cluster analysis and display of genome-wide expression patterns. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[8]  Carolina Perez-Iratxeta,et al.  Gene function in early mouse embryonic stem cell differentiation , 2007, BMC Genomics.

[9]  A. Sharov,et al.  Global gene expression profiling reveals similarities and differences among mouse pluripotent stem cells of different origins and strains. , 2007, Developmental biology.

[10]  Tao Wang,et al.  Esrrb Activates Oct4 Transcription and Sustains Self-renewal and Pluripotency in Embryonic Stem Cells* , 2008, Journal of Biological Chemistry.

[11]  T. Hughes,et al.  Prediction and Testing of Novel Transcriptional Networks Regulating Embryonic Stem Cell Self-renewal and Commitment , 2022 .

[12]  J. Nichols,et al.  BMP Induction of Id Proteins Suppresses Differentiation and Sustains Embryonic Stem Cell Self-Renewal in Collaboration with STAT3 , 2003, Cell.

[13]  Fabienne De Graeve,et al.  Leukemia Inhibitory Factor–dependent Transcriptional Activation in Embryonic Stem Cells , 1997, The Journal of cell biology.

[14]  Janet Rossant,et al.  Gene expression profiling of embryo-derived stem cells reveals candidate genes associated with pluripotency and lineage specificity. , 2002, Genome research.

[15]  P. Robson,et al.  Transcriptional Regulation of Nanog by OCT4 and SOX2* , 2005, Journal of Biological Chemistry.

[16]  D. Kristensen,et al.  Cytokine signalling in embryonic stem cells , 2005, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[17]  C. Kedinger,et al.  Role of suppressors of cytokine signaling ( Socs ) in leukemia inhibitory factor ( LIF )-dependent embryonic stem cell survival , 2000 .

[18]  S. Constantinescu,et al.  Microarray Analysis of LIF/Stat3 Transcriptional Targets in Embryonic Stem Cells , 2005, Stem cells.

[19]  T. Yokota,et al.  CD9 is associated with leukemia inhibitory factor-mediated maintenance of embryonic stem cells. , 2002, Molecular biology of the cell.

[20]  X. Chen,et al.  The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells , 2006, Nature Genetics.

[21]  S. Akira,et al.  Multi-functional roles of Stat3 revealed by conditional gene targeting. , 2001, Archivum immunologiae et therapiae experimentalis.

[22]  B. Hoffman,et al.  MyD genes in negative growth control , 1998, Oncogene.

[23]  R. Humphries,et al.  Correlation of Murine Embryonic Stem Cell Gene Expression Profiles with Functional Measures of Pluripotency , 2005, Stem cells.

[24]  Austin G Smith,et al.  Signaling Mechanisms Regulating Self-Renewal and Differentiation of Pluripotent Embryonic Stem Cells , 1999, Cells Tissues Organs.

[25]  M. Taoka,et al.  Large‐scale identification of proteins expressed in mouse embryonic stem cells , 2005, Proteomics.

[26]  Dongxin Zhao,et al.  WNT/beta-catenin pathway up-regulates Stat3 and converges on LIF to prevent differentiation of mouse embryonic stem cells. , 2006, Developmental biology.

[27]  Radu Dobrin,et al.  Dissecting self-renewal in stem cells with RNA interference , 2006, Nature.

[28]  Dinender K. Singla,et al.  wnt3a but not wnt11 supports self-renewal of embryonic stem cells. , 2006, Biochemical and biophysical research communications.

[29]  G. Christensen,et al.  Leukaemia inhibitory factor alters expression of genes involved in rat cardiomyocyte energy metabolism. , 2004, Acta physiologica Scandinavica.

[30]  Hitoshi Niwa,et al.  How is pluripotency determined and maintained? , 2007, Development.

[31]  A. Smith,et al.  Self-renewal of pluripotent embryonic stem cells is mediated via activation of STAT3. , 1998, Genes & development.

[32]  M. Murakami,et al.  The Homeoprotein Nanog Is Required for Maintenance of Pluripotency in Mouse Epiblast and ES Cells , 2003, Cell.

[33]  Austin G Smith,et al.  FGF stimulation of the Erk1/2 signalling cascade triggers transition of pluripotent embryonic stem cells from self-renewal to lineage commitment , 2007, Development.

[34]  Chad A. Cowan,et al.  The Src Family of Tyrosine Kinases Is Important for Embryonic Stem Cell Self-renewal* , 2004, Journal of Biological Chemistry.

[35]  J. Nichols,et al.  Functional Expression Cloning of Nanog, a Pluripotency Sustaining Factor in Embryonic Stem Cells , 2003, Cell.

[36]  Jiang Li,et al.  Gene expression in human neural stem cells: effects of leukemia inhibitory factor , 2003, Journal of neurochemistry.

[37]  D. Frank,et al.  STAT signaling in the pathogenesis and treatment of cancer. , 1999, Molecular medicine.

[38]  M. Okabe,et al.  Activation of Akt signaling is sufficient to maintain pluripotency in mouse and primate embryonic stem cells , 2006, Oncogene.

[39]  Yudi Pawitan,et al.  False discovery rate, sensitivity and sample size for microarray studies , 2005, Bioinform..

[40]  Y. Benjamini,et al.  Controlling the false discovery rate: a practical and powerful approach to multiple testing , 1995 .

[41]  P. Heinrich,et al.  Principles of interleukin (IL)-6-type cytokine signalling and its regulation. , 2003, The Biochemical journal.

[42]  D. Dembélé,et al.  Bcl2, a transcriptional target of p38α, is critical for neuronal commitment of mouse embryonic stem cells , 2008, Cell Death and Differentiation.

[43]  T. Yokota,et al.  Expression profiling in transgenic FVB/N embryonic stem cells overexpressing STAT3 , 2008, BMC Developmental Biology.

[44]  C. Watson,et al.  A dual, non-redundant, role for LIF as a regulator of development and STAT3-mediated cell death in mammary gland , 2003, Development.

[45]  J. Nichols,et al.  Suppression of SHP-2 and ERK signalling promotes self-renewal of mouse embryonic stem cells. , 1999, Developmental biology.

[46]  K. Boheler,et al.  Embryonic stem cells: prospects for developmental biology and cell therapy. , 2005, Physiological reviews.

[47]  A. Bradley,et al.  Thirteen years of manipulating the mouse genome: a personal history. , 1998, The International journal of developmental biology.

[48]  T. Hirano,et al.  Signaling mechanisms through gp130: a model of the cytokine system. , 1997, Cytokine & growth factor reviews.

[49]  Geppino Falco,et al.  An in situ hybridization-based screen for heterogeneously expressed genes in mouse ES cells. , 2008, Gene expression patterns : GEP.

[50]  S. Orkin,et al.  Chipping away at the Embryonic Stem Cell Network , 2005, Cell.

[51]  Peter J. van der Spek,et al.  HeatMapper: powerful combined visualization of gene expression profile correlations, genotypes, phenotypes and sample characteristics , 2006, BMC Bioinformatics.

[52]  Andreas Henschel,et al.  DEQOR: a web-based tool for the design and quality control of siRNAs , 2004, Nucleic Acids Res..

[53]  Li Zhong,et al.  Murine embryonic stem cell differentiation is promoted by SOCS-3 and inhibited by the zinc finger transcription factor Klf4. , 2005, Blood.

[54]  A. Smith,et al.  Embryo-derived stem cells: of mice and men. , 2001, Annual review of cell and developmental biology.

[55]  M. Katsuki,et al.  STAT3 activation is sufficient to maintain an undifferentiated state of mouse embryonic stem cells , 1999, The EMBO journal.

[56]  I. Chambers The molecular basis of pluripotency in mouse embryonic stem cells. , 2004, Cloning and stem cells.

[57]  N. D. Clarke,et al.  Integration of External Signaling Pathways with the Core Transcriptional Network in Embryonic Stem Cells , 2008, Cell.

[58]  N. Hübner,et al.  Global transcriptome analysis of murine embryonic stem cell-derived cardiomyocytes , 2007, Genome Biology.

[59]  Joel S. Parker,et al.  Novel mRNA Targets for Tristetraprolin (TTP) Identified by Global Analysis of Stabilized Transcripts in TTP-Deficient Fibroblasts , 2006, Molecular and Cellular Biology.

[60]  Megan F. Cole,et al.  Core Transcriptional Regulatory Circuitry in Human Embryonic Stem Cells , 2005, Cell.

[61]  Geppino Falco,et al.  Transcriptome Analysis of Mouse Stem Cells and Early Embryos , 2003, PLoS biology.

[62]  G. Pan,et al.  A negative feedback loop of transcription factors that controls stem cell pluripotency and self‐renewal , 2006, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[63]  M. Worthington,et al.  RNA Binding Properties of the AU-rich Element-binding Recombinant Nup475/TIS11/Tristetraprolin Protein* , 2002, The Journal of Biological Chemistry.

[64]  J. Ihle,et al.  Leukemia inhibitory factor regulates trophoblast giant cell differentiation via Janus kinase 1-signal transducer and activator of transcription 3-suppressor of cytokine signaling 3 pathway. , 2008, Molecular endocrinology.

[65]  A. Smith,et al.  Identification of genes regulated by leukemia-inhibitory factor in the mouse uterus at the time of implantation. , 2004, Molecular endocrinology.

[66]  T. Speed,et al.  Summaries of Affymetrix GeneChip probe level data. , 2003, Nucleic acids research.

[67]  Tom Misteli,et al.  Chromatin in pluripotent embryonic stem cells and differentiation , 2006, Nature Reviews Molecular Cell Biology.

[68]  S. Dalton,et al.  LIF/STAT3 controls ES cell self-renewal and pluripotency by a Myc-dependent mechanism , 2005, Development.

[69]  A. Dierich,et al.  The Ribosomal S6 Kinases, cAMP-responsive Element-binding, and STAT3 Proteins Are Regulated by Different Leukemia Inhibitory Factor Signaling Pathways in Mouse Embryonic Stem Cells* , 2001, The Journal of Biological Chemistry.

[70]  S. Akira,et al.  STAT3 activation is a critical step in gp130-mediated terminal differentiation and growth arrest of a myeloid cell line. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[71]  D. Metcalf The Unsolved Enigmas of Leukemia Inhibitory Factor , 2003, Stem cells.

[72]  J. Déchanet,et al.  Leukemia inhibitory factor: part of a large ingathering family. , 1998, International reviews of immunology.

[73]  J. Brugge,et al.  Leukemia inhibitory factor and interleukin-6 trigger the same immediate early response, including tyrosine phosphorylation, upon induction of myeloid leukemia differentiation , 1991, Molecular and cellular biology.

[74]  H. Niwa,et al.  Synergistic action of Wnt and LIF in maintaining pluripotency of mouse ES cells. , 2006, Biochemical and biophysical research communications.

[75]  A. Dierich,et al.  Apoptosis and differentiation commitment: novel insights revealed by gene profiling studies in mouse embryonic stem cells , 2006, Cell Death and Differentiation.

[76]  H. Himmelbauer,et al.  An endoribonuclease-prepared siRNA screen in human cells identifies genes essential for cell division , 2004, Nature.

[77]  C. Kedinger,et al.  A p38 inhibitor allows to dissociate differentiation and apoptotic processes triggered upon LIF withdrawal in mouse embryonic stem cells , 2004, Cell Death and Differentiation.

[78]  H. Schöler,et al.  Developmental cell biology: Regulatory networks in embryo-derived pluripotent stem cells , 2005, Nature Reviews Molecular Cell Biology.

[79]  Marielle Afanassieff,et al.  Self‐Renewal of Murine Embryonic Stem Cells Is Supported by the Serine/Threonine Kinases Pim‐1 and Pim‐3 , 2007, Stem cells.

[80]  Dongxin Zhao,et al.  WNT/β-catenin pathway up-regulates Stat3 and converges on LIF to prevent differentiation of mouse embryonic stem cells , 2006 .

[81]  K. Kiuchi,et al.  Recruitment of mRNA-destabilizing protein TIS11 to stress granules is mediated by its zinc finger domain. , 2005, Experimental cell research.

[82]  S. Akira,et al.  Suppression of epithelial apoptosis and delayed mammary gland involution in mice with a conditional knockout of Stat3. , 1999, Genes & development.

[83]  M. Welham,et al.  Regulation of Embryonic Stem Cell Self-renewal by Phosphoinositide 3-Kinase-dependent Signaling* , 2004, Journal of Biological Chemistry.

[84]  S. V. Anisimov,et al.  SAGE identification of gene transcripts with profiles unique to pluripotent mouse R1 embryonic stem cells. , 2002, Genomics.