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Seung-Hwan Lee, S. Girard, D. Macina, M. Bùsa, A. Zafer, A. Belouchi, P. Gros, S. Vidal (2001)
Susceptibility to mouse cytomegalovirus is associated with deletion of an activating natural killer cell receptor of the C-type lectin superfamilyNature Genetics, 28
Xi-liang Cao, E. Shores, J. Hu‐Li, M. Anver, Brian Kelsail, S. Russell, J. Drago, M. Noguchi, A. Grinberg, E. Bloom, W. Paul, S. Katz, P. Love, W. Leonard (1995)
Defective lymphoid development in mice lacking expression of the common cytokine receptor gamma chain.Immunity, 2 3
James Lodolce, D. Boone, Sophia Chai, Rachel Swain, T. Dassopoulos, Shanthi Trettin, A. Ma (1998)
IL-15 receptor maintains lymphoid homeostasis by supporting lymphocyte homing and proliferation.Immunity, 9 5
M. Loza, S. Peters, J. Zangrilli, B. Perussia (2002)
Distinction between IL‐13+ and IFN‐γ+ natural killer cells and regulation of their pool size by IL‐4European Journal of Immunology, 32
A. Sjöström, M. Eriksson, C. Cerboni, M. Johansson, C. Sentman, K. Kärre, P. Höglund (2001)
Acquisition of External Major Histocompatibility Complex Class I Molecules by Natural Killer Cells Expressing Inhibitory Ly49 ReceptorsThe Journal of Experimental Medicine, 194
T. Moore, U. Freeden-Jeffry, R. Murray, A. Zlotnik (1996)
Inhibition of gamma delta T cell development and early thymocyte maturation in IL-7 -/- mice.Journal of immunology, 157 6
Sung Kim, Sung Kim, W. Yokoyama (1998)
NK cell granule exocytosis and cytokine production inhibited by Ly-49A engagement.Cellular immunology, 183 2
C. Roth, J. Carlyle, H. Takizawa, D. Raulet (2000)
Clonal acquisition of inhibitory Ly49 receptors on developing NK cells is successively restricted and regulated by stromal class I MHC.Immunity, 13 1
A. Judge, Xiaohong Zhang, H. Fujii, C. Surh, J. Sprent (2002)
Interleukin 15 Controls both Proliferation and Survival of a Subset of Memory-Phenotype CD8+ T CellsThe Journal of Experimental Medicine, 196
J. Carlyle, A. Michie, C. Furlonger, T. Nakano, M. Lenardo, C. Paige, J. Zúñiga-Pflücker (1997)
Identification of a Novel Developmental Stage Marking Lineage Commitment of Progenitor ThymocytesThe Journal of Experimental Medicine, 186
F. Karlhofer, R. Ribaudo, W. Yokoyama (1992)
MHC class I alloantigen specificity of Ly-49+ IL-2-activated natural killer cellsNature, 358
M. Cooper, J. Bush, T. Fehniger, J. Vandeusen, R. Waite, Yang Liu, H. Aguila, M. Caligiuri (2002)
In vivo evidence for a dependence on interleukin 15 for survival of natural killer cells.Blood, 100 10
J. Dorfman, D. Raulet (1998)
Acquisition of Ly49 Receptor Expression by Developing Natural Killer CellsThe Journal of Experimental Medicine, 187
E. Ho, L. Carayannopoulos, Jennifer Poursine‐Laurent, Jeremy Kinder, B. Plougastel, H. Smith, W. Yokoyama (2002)
Costimulation of Multiple NK Cell Activation Receptors by NKG2D1The Journal of Immunology, 169
K. Dorshkind, S. Pollack, M. Bosma, R. Phillips (1985)
Natural killer (NK) cells are present in mice with severe combined immunodeficiency (scid).Journal of immunology, 134 6
Eleftheria Rosmaraki, I. Douagi, C. Roth, F. Colucci, A. Cumano, J. Santo (2001)
Identification of committed NK cell progenitors in adult murine bone marrowEuropean Journal of Immunology, 31
L. Mason, Stephen Anderson, W. Yokoyama, H. Smith, R. Winkler-Pickett, J. Ortaldo (1996)
The Ly-49D Receptor Activates Murine Natural Killer CellsThe Journal of Experimental Medicine, 184
J. Disanto, Werner Müller, D. Guy‐grand, A. Fischer, K. Rajewsky (1995)
Lymphoid development in mice with a targeted deletion of the interleukin 2 receptor gamma chain.Proceedings of the National Academy of Sciences of the United States of America, 92
C. Biron, K. Byron, J. Sullivan (1989)
Severe herpesvirus infections in an adolescent without natural killer cells.The New England journal of medicine, 320 26
Joanna Marks-Konczalik, S. Dubois, Jacqueline Losi, Helen Sabzevari, Nobuo Yamada, Lionel Feigenbaum, Thomas Waldmann, Yutaka Tagaya (2000)
IL-2-induced activation-induced cell death is inhibited in IL-15 transgenic mice.Proceedings of the National Academy of Sciences of the United States of America, 97 21
R. Moriggl, David Topham, S. Teglund, V. Sexl, C. Mckay, Demin Wang, A. Hoffmeyer, J. Deursen, M. Sangster, K. Bunting, G. Grosveld, J. Ihle, J. Ihle (1999)
Stat5 is required for IL-2-induced cell cycle progression of peripheral T cells.Immunity, 10 2
R. Koka, P. Burkett, Marcia Chien, Sophia Chai, Faye Chan, James Lodolce, D. Boone, A. Ma (2003)
Interleukin (IL)-15Rα–deficient Natural Killer Cells Survive in Normal but Not IL-15Rα–deficient MiceThe Journal of Experimental Medicine, 197
K. Nguyen, T. Salazar-Mather, M. Dalod, J. Deusen, Xiao‐qing Wei, F. Liew, M. Caligiuri, J. Durbin, C. Biron (2002)
Coordinated and Distinct Roles for IFN-αβ, IL-12, and IL-15 Regulation of NK Cell Responses to Viral Infection1The Journal of Immunology, 169
J. Matsuda, L. Gapin, S. Sidobre, W. Kieper, Joyce Tan, R. Ceredig, C. Surh, M. Kronenberg (2002)
Homeostasis of Vα14i NKT cellsNature Immunology, 3
I. Douagi, F. Colucci, J. Santo, A. Cumano (2002)
Identification of the earliest prethymic bipotent T/NK progenitor in murine fetal liver.Blood, 99 2
A. Dokun, Sungjin Kim, H. Smith, Hyun-Seok Kang, D. Chu, W. Yokoyama (2001)
Specific and nonspecific NK cell activation during virus infectionNature Immunology, 2
F. Colucci, C. Soudais, Eleftheria Rosmaraki, Lesley Vanes, V. Tybulewicz, J. Santo (1999)
Dissecting NK cell development using a novel alymphoid mouse model: investigating the role of the c-abl proto-oncogene in murine NK cell differentiation.Journal of immunology, 162 5
G. Trinchieri (1989)
Biology of Natural Killer CellsAdvances in Immunology, 47
C. Biron, K. Nguyen, G. Pien, L. Cousens, T. Salazar-Mather (1999)
Natural killer cells in antiviral defense: function and regulation by innate cytokines.Annual review of immunology, 17
F. Colucci, M. Caligiuri, J. Santo (2003)
What does it take to make a natural killer?Nature Reviews Immunology, 3
R. Lian, Vinay Kumar (2002)
Murine natural killer cell progenitors and their requirements for development.Seminars in immunology, 14 6
F. Colucci, J. Santo (2000)
The receptor tyrosine kinase c-kit provides a critical signal for survival, expansion, and maturation of mouse natural killer cells.Blood, 95 3
Thomas Ranson, C. Vosshenrich, Erwan Corcuff, O. Richard, Werner Müller, J. Santo (2003)
IL-15 is an essential mediator of peripheral NK-cell homeostasis.Blood, 101 12
Haixin Yu, T. Fehniger, P. Fuchshuber, K. Thiel, É. Vivier, W. Carson, M. Caligiuri (1998)
Flt3 Ligand Promotes the Generation of a Distinct CD34+Human Natural Killer Cell Progenitor That Responds to Interleukin-15Blood, 92
D. Andrews, H. Farrell, Eloise Densley, A. Scalzo, G. Shellam, M. Degli-Esposti (2001)
NK1.1+ Cells and Murine Cytomegalovirus Infection: What Happens In Situ?1The Journal of Immunology, 166
J. Hackett, G. Bosma, M. Bosma, M. Bennett, V. Kumar (1986)
Transplantable progenitors of natural killer cells are distinct from those of T and B lymphocytes.Proceedings of the National Academy of Sciences of the United States of America, 83 10
F. Karlhofer, R. Hunziker, A. Reichlin, D. Margulies, W. Yokoyama (1994)
Host MHC class I molecules modulate in vivo expression of a NK cell receptor.Journal of immunology, 153 6
I. Puzanov, M. Bennett, Vinay Kumar (1996)
IL-15 can substitute for the marrow microenvironment in the differentiation of natural killer cells.Journal of immunology, 157 10
H. Rodewald, P. Moingeon, J. Lucich, C. Dosiou, E. Reinherz (1992)
A population of early fetal thymocytes expressing FcγRII III contains precursors of T lymphocytes and natural killer cellsCell, 69
H. Smith, H. Chuang, Lawrence Wang, M. Salcedo, J. Heusel, W. Yokoyama (2000)
Nonstochastic Coexpression of Activation Receptors on Murine Natural Killer CellsThe Journal of Experimental Medicine, 191
M. Loza, L. Zamai, L. Azzoni, E. Rosati, B. Perussia (2002)
Expression of type 1 (interferon gamma) and type 2 (interleukin-13, interleukin-5) cytokines at distinct stages of natural killer cell differentiation from progenitor cells.Blood, 99 4
C. Biron, G. Sonnenfeld, R. Welsh (1984)
Interferon Induces Natural Killer Cell Blastogenesis In VivoJournal of Leukocyte Biology, 35
D. Andrews, A. Scalzo, W. Yokoyama, M. Smyth, M. Degli-Esposti (2003)
Functional interactions between dendritic cells and NK cells during viral infectionNature Immunology, 4
F. Colucci, S. Samson, R. DeKoter, O. Lantz, H. Singh, J. Santo (2001)
Differential requirement for the transcription factor PU.1 in the generation of natural killer cells versus B and T cells.Blood, 97 9
J. Bukowski, B. Woda, S. Habu, K. Okumura, R. Welsh (1983)
Natural killer cell depletion enhances virus synthesis and virus-induced hepatitis in vivo.Journal of immunology, 131 3
Margaret Frey, Nalini Packianathan, Todd Fehniger, Mary Ross, Wan‐Chao Wang, Carleton Stewart, Michael Caligiuri, Michael Caligiuri, Sharon Evans (1998)
Differential expression and function of L-selectin on CD56bright and CD56dim natural killer cell subsets.Journal of immunology, 161 1
T. Salazar-Mather, J. Orange, C. Biron (1998)
Early Murine Cytomegalovirus (MCMV) Infection Induces Liver Natural Killer (NK) Cell Inflammation and Protection Through Macrophage Inflammatory Protein 1α (MIP-1α)–dependent PathwaysThe Journal of Experimental Medicine, 187
Akihiko Ito, Tatsuki Kataoka, Dae-Ki Kim, Y. Koma, Young-Mi Lee, Yukihiko Kitamura (2001)
Inhibitory effect on natural killer activity of microphthalmia transcription factor encoded by the mutant mi allele of mice.Blood, 97 7
R. DeKoter, Harinder Singh (2000)
Regulation of B lymphocyte and macrophage development by graded expression of PU.1.Science, 288 5470
T. Salazar-Mather, R. Ishikawa, C. Biron (1996)
NK cell trafficking and cytokine expression in splenic compartments after IFN induction and viral infection.Journal of immunology, 157 7
K. Nguyen, W. Watford, R. Salomon, S. Hofmann, G. Pien, A. Morinobu, M. Gadina, J. O’Shea, C. Biron (2002)
Critical Role for STAT4 Activation by Type 1 Interferons in the Interferon-γ Response to Viral InfectionScience, 297
Sungjin Kim, K. Iizuka, Hyun-Seok Kang, A. Dokun, A. French, S. Greco, W. Yokoyama (2002)
In vivo developmental stages in murine natural killer cell maturationNature Immunology, 3
K. Barton, N. Muthusamy, C. Fischer, C. Ting, T. Walunas, L. Lanier, J. Leiden (1998)
The Ets-1 transcription factor is required for the development of natural killer cells in mice.Immunity, 9 4
M. Kasaian, M. Whitters, L. Carter, L. Lowe, J. Jussif, B. Deng, K. Johnson, J. Witek, M. Senices, R. Konz, A. Wurster, D. Donaldson, M. Collins, D. Young, M. Grusby (2002)
IL-21 limits NK cell responses and promotes antigen-specific T cell activation: a mediator of the transition from innate to adaptive immunity.Immunity, 16 4
J. Hackett, M. Tutt, M. Lipscomb, M. Bennett, G. Koo, V. Kumar (1986)
Origin and differentiation of natural killer cells. II. Functional and morphologic studies of purified NK-1.1+ cells.Journal of immunology, 136 8
F. Shi, Hua-bing Wang, Hulun Li, Seokmann Hong, M. Taniguchi, H. Link, L. Kaer, H. Ljunggren (2000)
Natural killer cells determine the outcome of B cell–mediated autoimmunityNature Immunology, 1
D. Raulet, R. Vance, C. Mcmahon (2001)
Regulation of the natural killer cell receptor repertoire.Annual review of immunology, 19
Joyce Tan, Bettina Ernst, W. Kieper, E. Leroy, J. Sprent, C. Surh (2002)
Interleukin (IL)-15 and IL-7 Jointly Regulate Homeostatic Proliferation of Memory Phenotype CD8+ Cells but Are Not Required for Memory Phenotype CD4+ CellsThe Journal of Experimental Medicine, 195
H. Arase, N. Arase, T. Saito (1996)
Interferon gamma production by natural killer (NK) cells and NK1.1+ T cells upon NKR-P1 cross-linkingThe Journal of Experimental Medicine, 183
Antonio Rodriguez, M. Carretero, J. Glienke, T. Bellón, A. Ramirez, H. Lehrach, F. Francis, M. López-Botet (1998)
Structure of the human CD94 C-type lectin geneImmunogenetics, 47
Qiang Wu, Yonglian Sun, Jing Wang, Xiaoqi Lin, Yang Wang, L. Pegg, A. Fütterer, K. Pfeffer, yang-xin fu (2001)
Signal Via Lymphotoxin-βR on Bone Marrow Stromal Cells Is Required for an Early Checkpoint of NK Cell Development1The Journal of Immunology, 166
Jin-hong Wang, A. Nichogiannopoulou, Li Wu, Lei Sun, A. Sharpe, M. Bigby, K. Georgopoulos (1996)
Selective defects in the development of the fetal and adult lymphoid system in mice with an Ikaros null mutation.Immunity, 5 6
W. Seaman, T. Gindhart, J. Greenspan, M. Blackman, N. Talal (1979)
Natural killer cells, bone, and the bone marrow: studies in estrogen-treated mice and in congenitally osteopetrotic (mi/mi) mice.Journal of immunology, 122 6
Y. Yokota, A. Mansouri, S. Mori, S. Sugawara, S. Adachi, S. Nishikawa, P. Gruss (1999)
Development of peripheral lymphoid organs and natural killer cells depends on the helix–loop–helix inhibitor Id2Nature, 397
J. Zimmer, V. Ioannidis, W. Held (2001)
H-2D Ligand Expression by Ly49A+ Natural Killer (NK) Cells Precludes Ligand Uptake from Environmental CellsThe Journal of Experimental Medicine, 194
H. Arase, E. Mocarski, A. Campbell, A. Hill, L. Lanier (2002)
Direct Recognition of Cytomegalovirus by Activating and Inhibitory NK Cell ReceptorsScience, 296
Véronique Flamand, E. Shores, Tuan Tran, Kun Huang, Eric Lee, Alexander Grinberg, J. Kinet, Paul Love (1996)
Delayed maturation of CD4- CD8- Fc gamma RII/III+ T and natural killer cell precursors in Fc epsilon RI gamma transgenic miceThe Journal of Experimental Medicine, 184
L. Zitvogel (2002)
Dendritic and Natural Killer Cells Cooperate in the Control/Switch of Innate ImmunityThe Journal of Experimental Medicine, 195
J. Hanna, O. Wald, D. Goldman-Wohl, D. Prus, G. Markel, R. Gazit, Gil Katz, R. Haimov‐Kochman, N. Fujii, S. Yagel, A. Peled, O. Mandelboim (2003)
CXCL12 expression by invasive trophoblasts induces the specific migration of CD16- human natural killer cells.Blood, 102 5
A. Goldrath, P. Sivakumar, M. Glaccum, M. Kennedy, M. Bevan, C. Benoist, D. Mathis, E. Butz (2002)
Cytokine Requirements for Acute and Basal Homeostatic Proliferation of Naive and Memory CD8+ T CellsThe Journal of Experimental Medicine, 195
W. Seaman, M. Blackman, T. Gindhart, J. Roubinian, J. Loeb, N. Talal (1978)
beta-Estradiol reduces natural killer cells in mice.Journal of immunology, 121 6
A. Galy, M. Travis, D. Cen, Benjamin Chen (1995)
Human T, B, natural killer, and dendritic cells arise from a common bone marrow progenitor cell subset.Immunity, 3 4
R. Kiessling, E. Klein, H. Pross, H. Wigzell, H. Wigzell (1975)
„Natural”︁ killer cells in the mouse. II. Cytotoxic cells with specificity for mouse Moloney leukemia cells. Characteristics of the killer cellEuropean Journal of Immunology, 5
M. Lohoff, G. Duncan, David Ferrick, H. Mittrücker, S. Bischof, Stefan Prechtl, Martin Röllinghoff, Edgar Schmitt, Andreas Pahl, Tak Mak (2000)
Deficiency in the Transcription Factor Interferon Regulatory Factor (Irf)-2 Leads to Severely Compromised Development of Natural Killer and T Helper Type 1 CellsThe Journal of Experimental Medicine, 192
M. Barbosa, Q. Nguyen, V. Tchernev, J. Ashley, J. Detter, S. Blaydes, S. Brandt, Dipti Chotai, C. Hodgman, Roberto Solari, M. Lovett, S. Kingsmore (1996)
Identification of the homologous beige and Chediak–Higashi syndrome genesNature, 382
S. Dubois, J. Mariner, T. Waldmann, Y. Tagaya (2002)
IL-15Rα Recycles and Presents IL-15 In trans to Neighboring CellsImmunity, 17
Seung-Hwan Lee, A. Zafer, Y. Repentigny, R. Kothary, M. Tremblay, P. Gros, P. Duplay, J. Webb, S. Vidal (2003)
Transgenic Expression of the Activating Natural Killer Receptor Ly49H Confers Resistance to Cytomegalovirus in Genetically Susceptible MiceThe Journal of Experimental Medicine, 197
B. Wilhelm, K. McQueen, Doug Freeman, F. Takei, D. Mager (2001)
Comparative analysis of the promoter regions and transcriptional start sites of mouse Ly49 genesImmunogenetics, 53
A. French, W. Yokoyama (2003)
Natural killer cells and viral infections.Current opinion in immunology, 15 1
A. Shibuya, K. Nagayoshi, K. Nakamura, H. Nakauchi (1995)
Lymphokine requirement for the generation of natural killer cells from CD34+ hematopoietic progenitor cells.Blood, 85 12
R. DeKoter, Hyun-Jun Lee, Harinder Singh (2002)
PU.1 regulates expression of the interleukin-7 receptor in lymphoid progenitors.Immunity, 16 2
Vinod Kumar, J. Ben-Ezra, M. Bennett, G. Sonnenfeld (1979)
Natural killer cells in mice treated with 89strontium: normal target-binding cell numbers but inability to kill even after interferon administration.Journal of immunology, 123 4
Y. Shinkai, 0Gary Rathbun, K. Lam, E. Oltz, V. Stewart, Monica Mendelsohn, J. Charron, M. Datta, F. Young, A. Stall, F. Alt (1992)
RAG-2-deficient mice lack mature lymphocytes owing to inability to initiate V(D)J rearrangementCell, 68
E. Mrózek, P. Anderson, M. Caligiuri (1996)
Role of interleukin-15 in the development of human CD56+ natural killer cells from CD34+ hematopoietic progenitor cells.Blood, 87 7
K. Imada, E. Bloom, H. Nakajima, J. Horvath-Arcidiacono, G. Udy, H. Davey, W. Leonard (1998)
Stat5b Is Essential for Natural Killer Cell–mediated Proliferation and Cytolytic ActivityThe Journal of Experimental Medicine, 188
Seung Park, Kaoru Saijo, Takamune Takahashi, Masataka Osawa, Hisashi Areas, Nakami Hirayama, Keiko Miyake, Hiromitsu Nakauchi, Takuji Shirasawa, Takashi Saito (1995)
Developmental defects of lymphoid cells in Jak3 kinase-deficient mice.Immunity, 3 6
W. Yokoyama (1993)
Recognition structures on natural killer cells.Current opinion in immunology, 5 1
J. Orange, C. Biron (1996)
Characterization of early IL-12, IFN-alphabeta, and TNF effects on antiviral state and NK cell responses during murine cytomegalovirus infection.Journal of immunology, 156 12
D. Tough, P. Borrow, J. Sprent (1996)
Induction of Bystander T Cell Proliferation by Viruses and Type I Interferon in VivoScience, 272
Chang‐you Wu, Xin Wang, M. Gadina, J. O’Shea, D. Presky, J. Magram (2000)
IL-12 Receptor β2 (IL-12Rβ2)-Deficient Mice Are Defective in IL-12-Mediated Signaling Despite the Presence of High Affinity IL-12 Binding SitesThe Journal of Immunology, 165
M. Salcedo, F. Colucci, P. Dyson, L. Cotterill, F. Lemonnier, P. Kourilsky, J. Santo, H. Ljunggren, J. Abastado (2000)
Role of Qa‐1b‐binding receptors in the specificity of developing NK cellsEuropean Journal of Immunology, 30
M. Heemskerk, B. Blom, G. Nolan, A. Stegmann, A. Bakker, K. Weijer, P. Res, H. Spits (1997)
Inhibition of T Cell and Promotion of Natural Killer Cell Development by the Dominant Negative Helix Loop Helix Factor Id3The Journal of Experimental Medicine, 186
W. Yokoyama, B. Plougastel (2003)
Immune functions encoded by the natural killer gene complexNature Reviews Immunology, 3
J. Orange (2002)
Human natural killer cell deficiencies and susceptibility to infection.Microbes and infection, 4 15
C. Biron, L. Turgiss, R. Welsh (1983)
Increase in NK cell number and turnover rate during acute viral infection.Journal of immunology, 131 3
P. Gosselin, L. Mason, J. Willette-Brown, J. Ortaldo, D. McVicar, S. Anderson (1999)
Induction of DAP12 phosphorylation, calcium mobilization, and cytokine secretion by Ly49HJournal of Leukocyte Biology, 66
Haruhiko Suzuki, G. Duncan, H. Takimoto, T. Mak (1997)
Abnormal Development of Intestinal Intraepithelial Lymphocytes and Peripheral Natural Killer Cells in Mice Lacking the IL-2 Receptor β ChainThe Journal of Experimental Medicine, 185
B. Wang, G. Hollander, A. Nichogiannopoulou, S. Simpson, J. Orange, J. Gutiérrez-Ramos, S. Burakoff, C. Biron, C. Terhorst (1996)
Natural killer cell development is blocked in the context of aberrant T lymphocyte ontogeny.International immunology, 8 6
Kubo Sachiho, Itoh Yohjiro, Ishikawa Naoshi, Nagasawa Ryuji, Mitarai Tetsuya, Naoki Maruyama (1993)
The gene encoding mouse lymphocyte antigen Ly-49: structural analysis and the 5'-flanking sequence.Gene, 136 1-2
K. Takeda, H. Tsutsui, T. Yoshimoto, O. Adachi, N. Yoshida, T. Kishimoto, H. Okamura, K. Nakanishi, S. Akira (1998)
Defective NK cell activity and Th1 response in IL-18-deficient mice.Immunity, 8 3
J. Ortaldo, H. Young (2003)
Expression of IFN-γ Upon Triggering of Activating Ly49D NK Receptors In Vitro and In Vivo: Costimulation with IL-12 or IL-18 Overrides Inhibitory Receptors 1The Journal of Immunology, 170
Werner Held, Béatrice Kunz, B. Lowin-Kropf, M. Wetering, Hans Clevers (1999)
Clonal acquisition of the Ly49A NK cell receptor is dependent on the trans-acting factor TCF-1.Immunity, 11 4
Megan Sykes, M. Harty, F. Karlhofer, D. Pearson, Gregory Szot, W. Yokoyama (1993)
Hematopoietic cells and radioresistant host elements influence natural killer cell differentiationThe Journal of Experimental Medicine, 178
L. Cousens, R. Peterson, S. Hsu, A. Dorner, J. Altman, R. Ahmed, C. Biron (1999)
Two Roads Diverged: Interferon α/β– and Interleukin 12–mediated Pathways in Promoting T Cell Interferon γ Responses during Viral InfectionThe Journal of Experimental Medicine, 189
Todd Becker, E. Wherry, D. Boone, K. Murali-Krishna, R. Antia, A. Ma, R. Ahmed (2002)
Interleukin 15 Is Required for Proliferative Renewal of Virus-specific Memory CD8 T CellsThe Journal of Experimental Medicine, 195
A. Nichogiannopoulou, M. Trevisan, S. Neben, C. Friedrich, K. Georgopoulos (1999)
Defects in Hemopoietic Stem Cell Activity in Ikaros Mutant MiceThe Journal of Experimental Medicine, 190
J. Carlyle, J. Zúñiga-Pflücker (1998)
Requirement for the Thymus in αβ T Lymphocyte Lineage CommitmentImmunity, 9
Martin Prlic, L. Lefrançois, S. Jameson (2002)
Multiple ChoicesThe Journal of Experimental Medicine, 195
B. Kunz, W. Held (2001)
Positive and Negative Roles of the Trans-Acting T Cell Factor-1 for the Acquisition of Distinct Ly-49 MHC Class I Receptors by NK Cells1The Journal of Immunology, 166
K. Iizuka, David Chaplin, Yang Wang, Qiang Wu, L. Pegg, Wayne Yokoyama, Yang-Xin Fu, Yang-Xin Fu, Yang-Xin Fu (1999)
Requirement for membrane lymphotoxin in natural killer cell development.Proceedings of the National Academy of Sciences of the United States of America, 96 11
M. Kennedy, M. Glaccum, Sandra Brown, E. Butz, J. Viney, M. Embers, N. Matsuki, K. Charrier, L. Sedger, C. Willis, K. Brasel, P. Morrissey, K. Stocking, J. Schuh, S. Joyce, J. Peschon (2000)
Reversible Defects in Natural Killer and Memory Cd8 T Cell Lineages in Interleukin 15–Deficient MiceThe Journal of Experimental Medicine, 191
T. Ohteki, H. Yoshida, T. Matsuyama, G. Duncan, T. Mak, P. Ohashi (1998)
The Transcription Factor Interferon Regulatory Factor 1 (IRF-1) Is Important during the Maturation of Natural Killer 1.1+ T Cell Receptor–α/β+ (NK1+ T) Cells, Natural Killer Cells, and Intestinal Intraepithelial T CellsThe Journal of Experimental Medicine, 187
H. Smith, J. Heusel, I. Mehta, Sungjin Kim, B. Dorner, O. Naidenko, K. Iizuka, H. Furukawa, D. Beckman, J. Pingel, A. Scalzo, D. Fremont, W. Yokoyama (2002)
Recognition of a virus-encoded ligand by a natural killer cell activation receptorProceedings of the National Academy of Sciences of the United States of America, 99
K. Georgopoulos, M. Bigby, Jin-hong Wang, Á. Molnár, P. Wu, S. Winandy, A. Sharpe (1994)
The ikaros gene is required for the development of all lymphoid lineagesCell, 79
G. Pien, A. Satoskar, K. Takeda, S. Akira, C. Biron (2000)
Cutting Edge: Selective IL-18 Requirements for Induction of Compartmental IFN-γ Responses During Viral Infection1The Journal of Immunology, 165
L. Zamai, Manzoor Ahmad, I. Bennett, L. Azzoni, E. Alnemri, B. Perussia (1998)
Natural Killer (NK) Cell–mediated Cytotoxicity: Differential Use of TRAIL and Fas Ligand by Immature and Mature Primary Human NK CellsThe Journal of Experimental Medicine, 188
K. McQueen, B. Wilhelm, F. Takei, D. Mager (2001)
Functional analysis of 5′ and 3′ regions of the closely related Ly49c and j genesImmunogenetics, 52
T. Salazar-Mather, C. Lewis, C. Biron (2002)
Type I interferons regulate inflammatory cell trafficking and macrophage inflammatory protein 1alpha delivery to the liver.The Journal of clinical investigation, 110 3
H. Mckenna, K. Stocking, Robert Miller, K. Brasel, T. Smedt, E. Maraskovsky, C. Maliszewski, D. Lynch, Jeffrey Smith, B. Pulendran, E. Roux, M. Teepe, S. Lyman, J. Peschon (2000)
Mice lacking flt3 ligand have deficient hematopoiesis affecting hematopoietic progenitor cells, dendritic cells, and natural killer cells.Blood, 95 11
R. Herberman (1989)
Natural killer cells.Progress in clinical and biological research, 288
H. Lacorazza, Y. Miyazaki, A. Cristofano, A. Deblasio, C. Hedvat, Jin Zhang, C. Cordon-Cardo, S. Mao, P. Pandolfi, Stephen D. Nimer (2002)
The ETS protein MEF plays a critical role in perforin gene expression and the development of natural killer and NK-T cells.Immunity, 17 4
Baoping Wang, C. Biron, J. She, K. Higgins, M. Sunshine, E. Lacy, N. Lonberg, C. Terhorst (1994)
A block in both early T lymphocyte and natural killer cell development in transgenic mice with high-copy numbers of the human CD3E gene.Proceedings of the National Academy of Sciences of the United States of America, 91 20
P. Mombaerts, J. Iacomini, R. Johnson, K. Herrup, S. Tonegawa, V. Papaioannou (1992)
RAG-1-deficient mice have no mature B and T lymphocytesCell, 68
M. Loza, B. Perussia (2001)
Final steps of natural killer cell maturation: a model for type 1–type 2 differentiation?Nature Immunology, 2
A. Moretta, C. Bottino, M. Vitale, D. Pende, C. Cantoni, M. Mingari, R. Biassoni, L. Moretta (2001)
Activating receptors and coreceptors involved in human natural killer cell-mediated cytolysis.Annual review of immunology, 19
B. Dorner, A. Scheffold, M. Rolph, Martin Huser, S. Kaufmann, Andreas Radbruch, I. Flesch, R. Kroczek (2002)
MIP-1α, MIP-1β, RANTES, and ATAC/lymphotactin function together with IFN-γ as type 1 cytokinesProceedings of the National Academy of Sciences of the United States of America, 99
Chang-you Wu, J. Ferrante, M. Gately, J. Magram (1997)
Characterization of IL-12 receptor beta1 chain (IL-12Rbeta1)-deficient mice: IL-12Rbeta1 is an essential component of the functional mouse IL-12 receptor.Journal of immunology, 159 4
Sung Kim, K. Iizuka, H. Aguila, I. Weissman, W. Yokoyama (2000)
In vivo natural killer cell activities revealed by natural killer cell-deficient mice.Proceedings of the National Academy of Sciences of the United States of America, 97 6
Martin Prlic, B. Blazar, M. Farrar, S. Jameson (2003)
In Vivo Survival and Homeostatic Proliferation of Natural Killer CellsThe Journal of Experimental Medicine, 197
I. Bennett, O. Zatsepina, L. Zamai, L. Azzoni, Tatiana Mikheeva, B. Perussia (1996)
Definition of a natural killer NKR-P1A+/CD56-/CD16- functionally immature human NK cell subset that differentiates in vitro in the presence of interleukin 12 [published erratum appears in J Exp Med 1997 Mar 17;185(6):1150-1]The Journal of Experimental Medicine, 184
J. Hackett, M. Bennett, V. Kumar (1985)
Origin and differentiation of natural killer cells. I. Characteristics of a transplantable NK cell precursor.Journal of immunology, 134 6
A. Dokun, D. Chu, Liping Yang, A. Bendelac, W. Yokoyama (2001)
Analysis of In Situ NK Cell Responses During Viral Infection1The Journal of Immunology, 167
J. Orange, M. Fassett, L. Koopman, J. Boyson, J. Strominger (2002)
Viral evasion of natural killer cellsNature Immunology, 3
M. Johansson, C. Bieberich, G. Jay, K. Kärre, P. Höglund (1997)
Natural Killer Cell Tolerance in Mice with Mosaic Expression of Major Histocompatibility Complex Class I TransgeneThe Journal of Experimental Medicine, 186
L. Lanier (1998)
NK cell receptors.Annual review of immunology, 16
K. Nguyen, L. Cousens, L. Doughty, G. Pien, J. Durbin, C. Biron (2000)
Interferon α/β-mediated inhibition and promotion of interferon γ: STAT1 resolves a paradoxNature Immunology, 1
P. Sivakumar, A. Gunturi, M. Salcedo, J. Schatzle, W. Lai, Z. Kurepa, Lisa Pitcher, Michael Seaman, François Lemonnier, M. Bennett, John Forman, Vinay Kumar (1999)
Cutting edge: expression of functional CD94/NKG2A inhibitory receptors on fetal NK1.1+Ly-49- cells: a possible mechanism of tolerance during NK cell development.Journal of immunology, 162 12
S. Akira (2000)
The role of IL-18 in innate immunity.Current opinion in immunology, 12 1
K. Kärre (1985)
ROLE OF TARGET HISTOCOMPATIBILITY ANTIGENS IN REGULATION OF NATURAL KILLER ACTIVITY: A REEVALUATION AND A HYPOTHESIS1
T. Salazar-Mather, T. Hamilton, C. Biron (2000)
A chemokine-to-cytokine-to-chemokine cascade critical in antiviral defense.The Journal of clinical investigation, 105 7
N. Williams, T. Moore, J. Schatzle, I. Puzanov, P. Sivakumar, A. Zlotnik, M. Bennett, Vinay Kumar (1997)
Generation of Lytic Natural Killer 1.1+, Ly-49− Cells from Multipotential Murine Bone Marrow Progenitors in a Stroma-free Culture: Definition of Cytokine Requirements and Developmental IntermediatesThe Journal of Experimental Medicine, 186
Thomas Ranson, C. Vosshenrich, Erwan Corcuff, O. Richard, V. Laloux, A. Lehuen, J. Santo (2003)
IL-15 availability conditions homeostasis of peripheral natural killer T cellsProceedings of the National Academy of Sciences of the United States of America, 100
Xiaohong Zhang, Siquan Sun, Inkyu Hwang, D. Tough, J. Sprent (1998)
Potent and selective stimulation of memory-phenotype CD8+ T cells in vivo by IL-15.Immunity, 8 5
C. Tay, R. Welsh (1997)
Distinct organ-dependent mechanisms for the control of murine cytomegalovirus infection by natural killer cellsJournal of Virology, 71
R. Herberman, M. Nunn, D. Lavrin (1975)
Natural cytotoxic reactivity of mouse lymphoid cells against syngeneic and allogeneic tumors. I. Distribution of reactivity and specificityInternational Journal of Cancer, 16
Y. Yu, V. Kumar, M. Bennett (1992)
Murine natural killer cells and marrow graft rejection.Annual review of immunology, 10
J. Magram, S. Connaughton, R. Warrier, D. Carvajal, Chang‐you Wu, J. Ferrante, C. Stewart, U. Sarmiento, D. Faherty, M. Gately (1996)
IL-12-Deficient Mice Are Defective in IFNγ Production and Type 1 Cytokine ResponsesImmunity, 4
Eric Long (1999)
Regulation of immune responses through inhibitory receptors.Annual review of immunology, 17
R. Glas, L. Franksson, C. Une, M. Eloranta, Claes Öhlén, A. Örn, K. Kärre (2000)
Recruitment and Activation of Natural Killer (Nk) Cells in Vivo Determined by the Target Cell PhenotypeThe Journal of Experimental Medicine, 191
H. Spits, F. Couwenberg, A. Bakker, K. Weijer, C. Uittenbogaart (2000)
Id2 and Id3 Inhibit Development of Cd34+ Stem Cells into Predendritic Cell (Pre-Dc)2 but Not into Pre-Dc1The Journal of Experimental Medicine, 192
Edward Scott, R. Fisher, M. Olson, Eli Kehrli, M. Simon, Harinder Singh (1997)
PU.1 functions in a cell-autonomous manner to control the differentiation of multipotential lymphoid-myeloid progenitors.Immunity, 6 4
T. Fehniger, M. Cooper, G. Nuovo, M. Cella, F. Facchetti, M. Colonna, M. Caligiuri (2003)
CD56bright natural killer cells are present in human lymph nodes and are activated by T cell-derived IL-2: a potential new link between adaptive and innate immunity.Blood, 101 8
M. Flodström, Amy Maday, Deepika Balakrishna, M. Cleary, A. Yoshimura, N. Sarvetnick (2002)
Target cell defense prevents the development of diabetes after viral infectionNature Immunology, 3
S. Lohwasser, B. Wilhelm, D. Mager, F. Takei (2000)
The genomic organization of the mouse CD94 C-type lectin gene.European journal of immunogenetics : official journal of the British Society for Histocompatibility and Immunogenetics, 27 3
W. Yokoyama (2003)
The Role of Natural Killer Cells in Innate Immunity to Infection
Ignacio Anegon, M. Cuturi, Giorgio Trinchieri, B. Perussia (1988)
Interaction of Fc receptor (CD16) ligands induces transcription of interleukin 2 receptor (CD25) and lymphokine genes and expression of their products in human natural killer cellsThe Journal of Experimental Medicine, 167
T. Ikawa, S. Fujimoto, H. Kawamoto, Y. Katsura, Y. Yokota (2001)
Commitment to natural killer cells requires the helix–loop–helix inhibitor Id2Proceedings of the National Academy of Sciences of the United States of America, 98
T. Waldmann, Y. Tagaya (1999)
The multifaceted regulation of interleukin-15 expression and the role of this cytokine in NK cell differentiation and host response to intracellular pathogens.Annual review of immunology, 17
T. Fehniger, Kazuhiro Suzuki, A. Ponnappan, J. Vandeusen, M. Cooper, S. Florea, A. Freud, Michael Robinson, J. Durbin, M. Caligiuri (2001)
Fatal Leukemia in Interleukin 15 Transgenic Mice Follows Early Expansions in Natural Killer and Memory Phenotype Cd8+ T CellsThe Journal of Experimental Medicine, 193
M. Kondo, I. Weissman, K. Akashi (1997)
Identification of Clonogenic Common Lymphoid Progenitors in Mouse Bone MarrowCell, 91
A. Saleh, A. Makrigiannis, D. Hodge, S. Anderson (2002)
Identification of a Novel Ly49 Promoter That Is Active in Bone Marrow and Fetal Thymus1The Journal of Immunology, 168
Jia-Wang Wang, J. Howson, Tomar Ghansah, C. Desponts, J. Ninos, Sarah May, Kim Nguyen, N. Toyama-Sorimachi, W. Kerr (2002)
Influence of SHIP on the NK Repertoire and Allogeneic Bone Marrow TransplantationScience, 295
T. Ikawa, H. Kawamoto, S. Fujimoto, Y. Katsura (1999)
Commitment of Common T/Natural Killer (Nk) Progenitors to Unipotent T and Nk Progenitors in the Murine Fetal Thymus Revealed by a Single Progenitor AssayThe Journal of Experimental Medicine, 190
D. Homann, A. Jahreis, T. Wolfe, A. Hughes, B. Coon, M. Stipdonk, K. Prilliman, S. Schoenberger, M. Herrath (2002)
CD40L blockade prevents autoimmune diabetes by induction of bitypic NK/DC regulatory cells.Immunity, 16 3
K. Ogasawara, S. Hida, N. Azimi, Y. Tagaya, Takeo Sato, Taeko Yokochi-Fukuda, T. Waldmann, T. Taniguchi, S. Taki (1998)
Requirement for IRF-1 in the microenvironment supporting development of natural killer cellsNature, 391
Jeffrey Miller, Katie Alley, P. Mcglave (1994)
Differentiation of natural killer (NK) cells from human primitive marrow progenitors in a stroma-based long-term culture system: identification of a CD34+7+ NK progenitor.Blood, 83 9
Michael Brown, A. Dokun, J. Heusel, H. Smith, D. Beckman, Erika Blattenberger, Chad Dubbelde, Laurie Stone, A. Scalzo, W. Yokoyama (2001)
Vital Involvement of a Natural Killer Cell Activation Receptor in Resistance to Viral InfectionScience, 292
F. Mattei, G. Schiavoni, F. Belardelli, D. Tough (2001)
IL-15 Is Expressed by Dendritic Cells in Response to Type I IFN, Double-Stranded RNA, or Lipopolysaccharide and Promotes Dendritic Cell Activation1The Journal of Immunology, 167
Lawrence Wang, D. Chu, A. Dokun, W. Yokoyama (2000)
Inducible Expression of the gp49B Inhibitory Receptor on NK Cells1The Journal of Immunology, 164
J. Ryan, J. Turck, E. Niemi, W. Yokoyama, W. Seaman (1992)
Molecular cloning of the NK1.1 antigen, a member of the NKR-P1 family of natural killer cell activation molecules.Journal of immunology, 149 5
A. Moffett-King (2002)
Natural killer cells and pregnancyNature Reviews Immunology, 2
N. Williams, J. Klem, I. Puzanov, P. Sivakumar, M. Bennett, V. Kumar (1999)
Differentiation of NK1.1+, Ly49+ NK cells from flt3+ multipotent marrow progenitor cells.Journal of immunology, 163 5
C. Tripp, S. Wolf, E. Unanue (1993)
Interleukin 12 and tumor necrosis factor alpha are costimulators of interferon gamma production by natural killer cells in severe combined immunodeficiency mice with listeriosis, and interleukin 10 is a physiologic antagonist.Proceedings of the National Academy of Sciences of the United States of America, 90
K. Beider, A. Nagler, O. Wald, Suzanna Franitza, Michal Dagan-Berger, H. Wald, H. Giladi, S. Brocke, J. Hanna, O. Mandelboim, M. Darash-Yahana, E. Galun, A. Peled (2003)
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.Blood, 102 6
P. Gosselin, A. Makrigiannis, R. Nalewaik, S. Anderson (2000)
Characterization of the Ly49I promoterImmunogenetics, 51
▪ Abstract Natural killer (NK) cells play important roles in immunological processes, including early defense against viral infections. This review provides an overview of the dynamic in vivo life of NK cells from their development in the bone marrow to their mature peripheral responses and their ultimate demise, with particular emphasis on mouse NK cells and viral infections.
Annual Review of Immunology – Annual Reviews
Published: Apr 23, 2004
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