T-bet–dependent S1P5 expression in NK cells promotes egress from lymph nodes and bone marrow

During a screen for ethylnitrosourea-induced mutations in mice affecting blood natural killer (NK) cells, we identified a strain, designated Duane, in which NK cells were reduced in blood and spleen but increased in lymph nodes (LNs) and bone marrow (BM). The accumulation of NK cells in LNs reflected a decreased ability to exit into lymph. This strain carries a point mutation within Tbx21 (T-bet), which generates a defective protein. Duane NK cells have a 30-fold deficiency in sphingosine-1-phosphate receptor 5 (S1P5) transcript levels, and S1P5-deficient mice exhibit an egress defect similar to Duane. Chromatin immunoprecipitation confirms binding of T-bet to the S1pr5 locus. S1P-deficient mice exhibit a more severe NK cell egress block, and the FTY720-sensitive S1P1 also plays a role in NK cell egress from LNs. S1P5 is not inhibited by CD69, a property that may facilitate trafficking of activated NK cells to effector sites. Finally, the accumulation of NK cells within BM of S1P-deficient mice was associated with reduced numbers in BM sinusoids, suggesting a role for S1P in BM egress. In summary, these findings identify S1P5 as a T-bet–induced gene that is required for NK cell egress from LNs and BM.

[1]  J. Cyster,et al.  Cannabinoid receptor 2 mediates retention of immature B cells in bone marrow sinusoids , 2009, Nature Immunology.

[2]  Sadik H. Kassim,et al.  Dendritic Cells Are Required for Optimal Activation of Natural Killer Functions following Primary Infection with Herpes Simplex Virus Type 1 , 2009, Journal of Virology.

[3]  Albert C. Huang,et al.  Coordinated but physically separable interaction with H3K27-demethylase and H3K4-methyltransferase activities are required for T-box protein-mediated activation of developmental gene expression. , 2008, Genes & development.

[4]  M. Smyth,et al.  IFN-γ-Dependent Recruitment of Mature CD27high NK Cells to Lymph Nodes Primed by Dendritic Cells , 2008, The Journal of Immunology.

[5]  E. Wherry,et al.  Anomalous Type 17 Response to Viral Infection by CD8+ T Cells Lacking T-bet and Eomesodermin , 2008, Science.

[6]  J. Nyström,et al.  Recruitment and activation of natural killer cells in vitro by a human dendritic cell vaccine. , 2008, Cancer research.

[7]  G. Bernardini,et al.  CCL3 and CXCL12 regulate trafficking of mouse bone marrow NK cell subsets. , 2008, Blood.

[8]  J. Cyster,et al.  S1P1 receptor signaling overrides retention mediated by G alpha i-coupled receptors to promote T cell egress. , 2008, Immunity.

[9]  R. Proia,et al.  S1P1 receptor expression regulates emergence of NKT cells in peripheral tissues , 2008, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[10]  Judith A. Blake,et al.  The Mouse Genome Database (MGD): mouse biology and model systems , 2007, Nucleic Acids Res..

[11]  Yannick Jacques,et al.  Natural killer cell trafficking in vivo requires a dedicated sphingosine 1-phosphate receptor , 2007, Nature Immunology.

[12]  F. Geissmann,et al.  The trafficking of natural killer cells , 2007, Immunological reviews.

[13]  K. Beima,et al.  T-bet's Ability To Regulate Individual Target Genes Requires the Conserved T-Box Domain To Recruit Histone Methyltransferase Activity and a Separate Family Member-Specific Transactivation Domain , 2007, Molecular and Cellular Biology.

[14]  Nikhil S. Joshi,et al.  Inflammation directs memory precursor and short-lived effector CD8(+) T cell fates via the graded expression of T-bet transcription factor. , 2007, Immunity.

[15]  M. Cahalan,et al.  Natural killer cells actively patrol peripheral lymph nodes forming stable conjugates to eliminate MHC-mismatched targets , 2007, Proceedings of the National Academy of Sciences.

[16]  A. Diefenbach,et al.  Dendritic cells prime natural killer cells by trans-presenting interleukin 15. , 2007, Immunity.

[17]  J. Cyster,et al.  Promotion of Lymphocyte Egress into Blood and Lymph by Distinct Sources of Sphingosine-1-Phosphate , 2007, Science.

[18]  T. Hla,et al.  Immunosuppressive and Anti-angiogenic Sphingosine 1-Phosphate Receptor-1 Agonists Induce Ubiquitinylation and Proteasomal Degradation of the Receptor* , 2007, Journal of Biological Chemistry.

[19]  T. Hla,et al.  Mapping Pathways Downstream of Sphingosine 1-Phosphate Subtype 1 by Differential Chemical Perturbation and Proteomics* , 2007, Journal of Biological Chemistry.

[20]  Eric Vivier,et al.  Identification, activation, and selective in vivo ablation of mouse NK cells via NKp46 , 2007, Proceedings of the National Academy of Sciences.

[21]  Anjana Rao,et al.  Transcription factors T-bet and Runx3 cooperate to activate Ifng and silence Il4 in T helper type 1 cells , 2007, Nature Immunology.

[22]  Dennis B. Troup,et al.  NCBI GEO: mining tens of millions of expression profiles—database and tools update , 2006, Nucleic Acids Res..

[23]  R. Kannagi,et al.  Interaction of GATA-3/T-bet transcription factors regulates expression of sialyl Lewis X homing receptors on Th1/Th2 lymphocytes , 2006, Proceedings of the National Academy of Sciences.

[24]  T. Huang,et al.  T-bet Binding to Newly Identified Target Gene Promoters Is Cell Type-independent but Results in Variable Context-dependent Functional Effects*♦ , 2006, Journal of Biological Chemistry.

[25]  W. Weimar,et al.  FTY720 treatment of kidney transplant patients: a differential effect on B cells, naïve T cells, memory T cells and NK cells. , 2006, Transplant immunology.

[26]  R. Germain,et al.  Natural killer cell behavior in lymph nodes revealed by static and real-time imaging , 2006, The Journal of experimental medicine.

[27]  L. Lanier,et al.  Suppression of tumor formation in lymph nodes by L-selectin–mediated natural killer cell recruitment , 2005, The Journal of experimental medicine.

[28]  L. Lanier,et al.  Cutting Edge: Lectin-Like Transcript-1 Is a Ligand for the Inhibitory Human NKR-P1A Receptor1 , 2005, The Journal of Immunology.

[29]  J. J. Zhang,et al.  Stat1-Dependent Synergistic Activation of T-bet for IgG2a Production during Early Stage of B Cell Activation1 , 2005, The Journal of Immunology.

[30]  E. Wherry,et al.  Effector and memory CD8+ T cell fate coupled by T-bet and eomesodermin , 2005, Nature Immunology.

[31]  Ying Xu,et al.  Lymphocyte Sequestration Through S1P Lyase Inhibition and Disruption of S1P Gradients , 2005, Science.

[32]  E. Goetzl,et al.  Sphingosine 1-phosphate and its receptors: an autocrine and paracrine network , 2005, Nature Reviews Immunology.

[33]  M. Grusby,et al.  NFATc2 and T-bet contribute to T-helper-cell-subset-specific regulation of IL-21 expression. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[34]  Pamela L. Schwartzberg,et al.  T Helper Cell Fate Specified by Kinase-Mediated Interaction of T-bet with GATA-3 , 2005, Science.

[35]  R. Proia,et al.  Cyclical modulation of sphingosine-1-phosphate receptor 1 surface expression during lymphocyte recirculation and relationship to lymphoid organ transit , 2005, The Journal of experimental medicine.

[36]  R. Proia,et al.  Expression of the Sphingosine 1-Phosphate Receptor, S1P1, on T-cells Controls Thymic Emigration* , 2004, Journal of Biological Chemistry.

[37]  P. Farnham,et al.  T-bet regulates the terminal maturation and homeostasis of NK and Valpha14i NKT cells. , 2004, Immunity.

[38]  R. Proia,et al.  Lymphocyte egress from thymus and peripheral lymphoid organs is dependent on S1P receptor 1 , 2004, Nature.

[39]  E. Goetzl,et al.  The immunosuppressant FTY720 down‐regulates sphingosine 1‐phosphate G protein‐coupled receptors , 2004, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[40]  Ulrich H. von Andrian,et al.  Homing and cellular traffic in lymph nodes , 2003, Nature Reviews Immunology.

[41]  J. Hanna,et al.  Involvement of CXCR4 and IL-2 in the homing and retention of human NK and NK T cells to the bone marrow and spleen of NOD/SCID mice. , 2003, Blood.

[42]  L. Glimcher,et al.  T-bet is required for optimal production of IFN-γ and antigen-specific T cell activation by dendritic cells , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[43]  S. Szabo,et al.  T-bet regulates IgG class switching and pathogenic autoantibody production , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[44]  L. Lanier,et al.  Direct Recognition of Cytomegalovirus by Activating and Inhibitory NK Cell Receptors , 2002, Science.

[45]  H. Rosen,et al.  Alteration of Lymphocyte Trafficking by Sphingosine-1-Phosphate Receptor Agonists , 2002, Science.

[46]  C. Goodnow,et al.  Genome-wide ENU mutagenesis to reveal immune regulators. , 2001, Immunity.

[47]  J. P. Hobson,et al.  Edg-1, the G protein-coupled receptor for sphingosine-1-phosphate, is essential for vascular maturation. , 2000, The Journal of clinical investigation.

[48]  M. Kronenberg,et al.  Tracking the Response of Natural Killer T Cells to a Glycolipid Antigen Using Cd1d Tetramers , 2000, The Journal of experimental medicine.

[49]  Laurie H Glimcher,et al.  A Novel Transcription Factor, T-bet, Directs Th1 Lineage Commitment , 2000, Cell.

[50]  W. Yokoyama,et al.  Stimulation of murine natural killer (NK) cells by a monoclonal antibody specific for the NK1.1 antigen. IL-2-activated NK cells possess additional specific stimulation pathways. , 1991, Journal of immunology.

[51]  M. Smyth,et al.  IFN-gamma-dependent recruitment of mature CD27(high) NK cells to lymph nodes primed by dendritic cells. , 2008, Journal of immunology.

[52]  Naděžda Brdičková,et al.  CD69 acts downstream of interferon-alpha/beta to inhibit S1P1 and lymphocyte egress from lymphoid organs. , 2006, Nature.

[53]  L. Thomsen,et al.  Induced recruitment of NK cells to lymph nodes provides IFN-gamma for T(H)1 priming. , 2004, Nature immunology.

[54]  Christophe Combet,et al.  Geno3D: automatic comparative molecular modelling of protein , 2002, Bioinform..

[55]  N. Guex,et al.  SWISS‐MODEL and the Swiss‐Pdb Viewer: An environment for comparative protein modeling , 1997, Electrophoresis.