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Science 12 May 1995:
Vol. 268. no. 5212, pp. 863 - 865
DOI: 10.1126/science.7538697
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Articles

Science, Vol 268, Issue 5212, 863-865
Copyright © 1995 by American Association for the Advancement of Science

articles

CD1 recognition by mouse NK1+ T lymphocytes

A Bendelac, O Lantz, ME Quimby, JW Yewdell, Bennink JR, and RR Brutkiewicz

Department of Molecular Biology, Princeton University, NJ 08544, USA.

Rare major histocompatibility complex (MHC) class I-like CD1-specific T cells have been isolated from human blood, but it has not been determined whether these clones are part of a defined subset of CD1-specific T cells selected during T cell development, or whether their recognition of CD1 is a fortuitous cross-reaction. In mice, an entire subset of alpha beta thymocytes with a unique phenotype was found to be CD1-specific. This particular subset, and its human counterpart, provide evidence that CD1 has a general role in selecting and interacting with specialized alpha beta T cells.


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   Abstract »    Full Text »    PDF »
{alpha}-Galactosylceramide, a Ligand of Natural Killer T Cells, Inhibits Allergic Airway Inflammation.
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Evidence for MR1 Antigen Presentation to Mucosal-associated Invariant T Cells.
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J. Biol. Chem. 280, 21183-21193
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H.-J. Kim, D. Guo, and D. B. Sant'Angelo (2005)
PNAS 102, 7263-7267
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NK cell activation and protection occur independently of natural killer T cells during Trypanosoma cruzi infection.
M. S. Duthie and S. J. Kahn (2005)
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Distinct Roles of Dendritic Cells and B Cells in Va14Ja18 Natural T Cell Activation In Vivo.
J. S. Bezbradica, A. K. Stanic, N. Matsuki, H. Bour-Jordan, J. A. Bluestone, J. W. Thomas, D. Unutmaz, L. Van Kaer, and S. Joyce (2005)
J. Immunol. 174, 4696-4705
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The Mouse CD1d Cytoplasmic Tail Mediates CD1d Trafficking and Antigen Presentation by Adaptor Protein 3-Dependent and -Independent Mechanisms.
A. P. Lawton, T. I. Prigozy, L. Brossay, B. Pei, A. Khurana, D. Martin, T. Zhu, K. Spate, M. Ozga, S. Honing, et al. (2005)
J. Immunol. 174, 3179-3186
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The Human CD1-Restricted T Cell Repertoire Is Limited to Cross-Reactive Antigens: Implications for Host Responses against Immunologically Related Pathogens.
P. A. Sieling, J. B. Torrelles, S. Stenger, W. Chung, A. E. Burdick, T. H. Rea, P. J. Brennan, J. T. Belisle, S. A. Porcelli, and R. L. Modlin (2005)
J. Immunol. 174, 2637-2644
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Transient Role for CD1d-Restricted Natural Killer T Cells in the Formation of Atherosclerotic Lesions.
A. M. Aslanian, H. A. Chapman, and I. F. Charo (2005)
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Inhibition of T Cell Differentiation into Effectors by NKT Cells Requires Cell Contacts.
J. Novak, L. Beaudoin, T. Griseri, and A. Lehuen (2005)
J. Immunol. 174, 1954-1961
   Abstract »    Full Text »    PDF »
Reduction in CD1d expression on dendritic cells and macrophages by an acute virus infection.
Y. Lin, T. J. Roberts, P. M. Spence, and R. R. Brutkiewicz (2005)
J. Leukoc. Biol. 77, 151-158
   Abstract »    Full Text »    PDF »
Critical Proinflammatory and Anti-Inflammatory Functions of Different Subsets of CD1d-Restricted Natural Killer T Cells during Trypanosoma cruzi Infection.
M. S. Duthie, M. Kahn, M. White, R. P. Kapur, and S. J. Kahn (2005)
Infect. Immun. 73, 181-192
   Abstract »    Full Text »    PDF »
Prevention of Diabetes in Nonobese Diabetic Mice Mediated by CD1d-Restricted Nonclassical NKT Cells.
N. Duarte, M. Stenstrom, S. Campino, M.-L. Bergman, M. Lundholm, D. Holmberg, and S. L. Cardell (2004)
J. Immunol. 173, 3112-3118
   Abstract »    Full Text »    PDF »
CD1d-restricted "NKT" cells and myeloid IL-12 production: an immunological crossroads leading to promotion or suppression of effective anti-tumor immune responses?.
J. E. Gumperz (2004)
J. Leukoc. Biol. 76, 307-313
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Production of Profibrotic Cytokines by Invariant NKT Cells Characterizes Cirrhosis Progression in Chronic Viral Hepatitis.
C. de Lalla, G. Galli, L. Aldrighetti, R. Romeo, M. Mariani, A. Monno, S. Nuti, M. Colombo, F. Callea, S. A. Porcelli, et al. (2004)
J. Immunol. 173, 1417-1425
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Up-Regulation of CD1d Expression Restores the Immunoregulatory Function of NKT Cells and Prevents Autoimmune Diabetes in Nonobese Diabetic Mice.
M. Falcone, F. Facciotti, N. Ghidoli, P. Monti, S. Olivieri, L. Zaccagnino, E. Bonifacio, G. Casorati, F. Sanvito, and N. Sarvetnick (2004)
J. Immunol. 172, 5908-5916
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NF-{kappa}B Controls Cell Fate Specification, Survival, and Molecular Differentiation of Immunoregulatory Natural T Lymphocytes.
A. K. Stanic, J. S. Bezbradica, J.-J. Park, N. Matsuki, A. L. Mora, L. Van Kaer, M. R. Boothby, and S. Joyce (2004)
J. Immunol. 172, 2265-2273
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Down-regulation of the invariant V{alpha}14 antigen receptor in NKT cells upon activation.
M. Harada, K.-i. Seino, H. Wakao, S. Sakata, Y. Ishizuka, T. Ito, S. Kojo, T. Nakayama, and M. Taniguchi (2004)
Int. Immunol. 16, 241-247
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Editing of CD1d-Bound Lipid Antigens by Endosomal Lipid Transfer Proteins.
D. Zhou, C. Cantu III, Y. Sagiv, N. Schrantz, A. B. Kulkarni, X. Qi, D. J. Mahuran, C. R. Morales, G. A. Grabowski, K. Benlagha, et al. (2004)
Science 303, 523-527
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NK Cells Respond to Pulmonary Infection with Mycobacterium tuberculosis, but Play a Minimal Role in Protection.
A. P. Junqueira-Kipnis, A. Kipnis, A. Jamieson, M. G. Juarrero, A. Diefenbach, D. H. Raulet, J. Turner, and I. M. Orme (2003)
J. Immunol. 171, 6039-6045
   Abstract »    Full Text »    PDF »
Structural Features of the Acyl Chain Determine Self-phospholipid Antigen Recognition by a CD1d-restricted Invariant NKT (iNKT) Cell.
J. Rauch, J. Gumperz, C. Robinson, M. Skold, C. Roy, D. C. Young, M. Lafleur, D. B. Moody, M. B. Brenner, C. E. Costello, et al. (2003)
J. Biol. Chem. 278, 47508-47515
   Abstract »    Full Text »    PDF »
Another View of T Cell Antigen Recognition: Cooperative Engagement of Glycolipid Antigens by Va14Ja18 Natural TCR.
A. K. Stanic, R. Shashidharamurthy, J. S. Bezbradica, N. Matsuki, Y. Yoshimura, S. Miyake, E. Y. Choi, T. D. Schell, L. Van Kaer, S. S. Tevethia, et al. (2003)
J. Immunol. 171, 4539-4551
   Abstract »    Full Text »    PDF »
The Adaptor Protein AP-3 Is Required for CD1d-Mediated Antigen Presentation of Glycosphingolipids and Development of V{alpha}14i NKT Cells.
D. Elewaut, A. P. Lawton, N. A. Nagarajan, E. Maverakis, A. Khurana, S. Honing, C. A. Benedict, E. Sercarz, O. Bakke, M. Kronenberg, et al. (2003)
J. Exp. Med. 198, 1133-1146
   Abstract »    Full Text »    PDF »
Glycolipid Antigen Drives Rapid Expansion and Sustained Cytokine Production by NK T Cells.
N. Y. Crowe, A. P. Uldrich, K. Kyparissoudis, K. J. L. Hammond, Y. Hayakawa, S. Sidobre, R. Keating, M. Kronenberg, M. J. Smyth, and D. I. Godfrey (2003)
J. Immunol. 171, 4020-4027
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T Cell Development in Mice Expressing CD1d Directed by a Classical MHC Class II Promoter.
C. Forestier, S.-H. Park, D. Wei, K. Benlagha, L. Teyton, and A. Bendelac (2003)
J. Immunol. 171, 4096-4104
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Expression of CD1d Under the Control of a MHC Class Ia Promoter Skews the Development of NKT Cells, But Not CD8+ T Cells.
H. Xu, T. Chun, A. Colmone, H. Nguyen, and C.-R. Wang (2003)
J. Immunol. 171, 4105-4112
   Abstract »    Full Text »    PDF »
Repeated {alpha}-Galactosylceramide Administration Results in Expansion of NK T Cells and Alleviates Inflammatory Dermatitis in MRL-lpr/lpr Mice.
J.-Q. Yang, V. Saxena, H. Xu, L. Van Kaer, C.-R. Wang, and R. R. Singh (2003)
J. Immunol. 171, 4439-4446
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Role of CD1d-Restricted NKT Cells in Microbial Immunity.
M. Skold and S. M. Behar (2003)
Infect. Immun. 71, 5447-5455
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Phenotypic and Functional Characterization of Long-Term Cultured Rhesus Macaque Spleen-Derived NKT Cells.
B. Gansuvd, W. J. Hubbard, A. Hutchings, F. T. Thomas, J. Goodwin, S. B. Wilson, M. A. Exley, and J. M. Thomas (2003)
J. Immunol. 171, 2904-2911
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CD4+ NKT Cells, But Not Conventional CD4+ T Cells, Are Required to Generate Efferent CD8+ T Regulatory Cells Following Antigen Inoculation in an Immune-Privileged Site.
T. Nakamura, K.-H. Sonoda, D. E. Faunce, J. Gumperz, T. Yamamura, S. Miyake, and J. Stein-Streilein (2003)
J. Immunol. 171, 1266-1271
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Cross-presentation of Disialoganglioside GD3 to Natural Killer T Cells.
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J. Immunol. 170, 4673-4682
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CD1d-expressing Dendritic Cells but Not Thymic Epithelial Cells Can Mediate Negative Selection of NKT Cells.
T. Chun, M. J. Page, L. Gapin, J. L. Matsuda, H. Xu, H. Nguyen, H.-S. Kang, A. K. Stanic, S. Joyce, W. A. Koltun, et al. (2003)
J. Exp. Med. 197, 907-918
   Abstract »    Full Text »    PDF »
Self Glycosphingolipids: New Antigens Recognized by Autoreactive T Lymphocytes.
G. De Libero and L. Mori (2003)
Physiology 18, 71-76
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Human Invariant V{alpha}24-J{alpha}Q TCR Supports the Development of CD1d-Dependent NK1.1+ and NK1.1- T Cells in Transgenic Mice.
M. Capone, D. Cantarella, J. Schumann, O. V. Naidenko, C. Garavaglia, F. Beermann, M. Kronenberg, P. Dellabona, H. R. MacDonald, and G. Casorati (2003)
J. Immunol. 170, 2390-2398
   Abstract »    Full Text »    PDF »
BATF Transgenic Mice Reveal a Role for Activator Protein-1 in NKT Cell Development.
K. L. Williams, A. J. Zullo, M. H. Kaplan, R. R. Brutkiewicz, C. D. Deppmann, C. Vinson, and E. J. Taparowsky (2003)
J. Immunol. 170, 2417-2426
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Defective presentation of the CD1d1-restricted natural Va14Ja18 NKT lymphocyte antigen caused by beta -D-glucosylceramide synthase deficiency.
A. K. Stanic, A. D. De Silva, J.-J. Park, V. Sriram, S. Ichikawa, Y. Hirabyashi, K. Hayakawa, L. Van Kaer, R. R. Brutkiewicz, and S. Joyce (2003)
PNAS 100, 1849-1854
   Abstract »    Full Text »    PDF »
Impaired Clearance of Herpes Simplex Virus Type 1 From Mice Lacking CD1d or NKT Cells Expressing the Semivariant V{alpha}14-J{alpha}281 TCR.
B. Grubor-Bauk, A. Simmons, G. Mayrhofer, and P. G. Speck (2003)
J. Immunol. 170, 1430-1434
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Glycosylphosphatidylinositol-Anchored Mucin-Like Glycoproteins from Trypanosoma cruzi Bind to CD1d but Do Not Elicit Dominant Innate or Adaptive Immune Responses Via the CD1d/NKT Cell Pathway.
D. O. Procopio, I. C. Almeida, A. C. T. Torrecilhas, J. E. Cardoso, L. Teyton, L. R. Travassos, A. Bendelac, and R. T. Gazzinelli (2002)
J. Immunol. 169, 3926-3933
   Abstract »    Full Text »    PDF »
NK T Cell Precursors Exhibit Differential Cytokine Regulation and Require Itk for Efficient Maturation.
P. Gadue and P. L. Stein (2002)
J. Immunol. 169, 2397-2406
   Abstract »    Full Text »    PDF »
The V{alpha}14 NKT Cell TCR Exhibits High-Affinity Binding to a Glycolipid/CD1d Complex.
S. Sidobre, O. V. Naidenko, B.-C. Sim, N. R. J. Gascoigne, K. C. Garcia, and M. Kronenberg (2002)
J. Immunol. 169, 1340-1348
   Abstract »    Full Text »    PDF »
The Homeostasis But Not the Differentiation of T Cells Is Regulated by p27Kip1.
R. Shen and M. H. Kaplan (2002)
J. Immunol. 169, 714-721
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Absence of the CD1 Molecule Up-Regulates Antitumor Activity Induced by CpG Oligodeoxynucleotides in Mice.
L. Sfondrini, D. Besusso, M. T. Zoia, M. Rodolfo, A. M. Invernizzi, M. Taniguchi, T. Nakayama, M. P. Colombo, S. Menard, and A. Balsari (2002)
J. Immunol. 169, 151-158
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Induction of T Helper Type 2 Immunity by a Point Mutation in the LAT Adaptor.
E. Aguado, S. Richelme, S. Nunez-Cruz, A. Miazek, A.-M. Mura, M. Richelme, X.-J. Guo, D. Sainty, H.-T. He, B. Malissen, et al. (2002)
Science 296, 2036-2040
   Abstract »    Full Text »    PDF »
Inhibition of glycolipid shedding rescues recognition of a CD1+ T cell lymphoma by natural killer T (NKT) cells.
V. Sriram, S. Cho, P. Li, P. W. O'Donnell, C. Dunn, K. Hayakawa, J. S. Blum, and R. R. Brutkiewicz (2002)
PNAS 99, 8197-8202
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Recycling CD1d1 Molecules Present Endogenous Antigens Processed in an Endocytic Compartment to NKT Cells.
T. J. Roberts, V. Sriram, P. M. Spence, M. Gui, K. Hayakawa, I. Bacik, J. R. Bennink, J. W. Yewdell, and R. R. Brutkiewicz (2002)
J. Immunol. 168, 5409-5414
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NK T Cells Are a Source of Early Interleukin-4 following Infection with Third-Stage Larvae of the Filarial Nematode Brugia pahangi.
P. Balmer and E. Devaney (2002)
Infect. Immun. 70, 2215-2219
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Phenotypic and Functional Differences Between NKT Cells Colonizing Splanchnic and Peripheral Lymph Nodes.
V. Laloux, L. Beaudoin, C. Ronet, and A. Lehuen (2002)
J. Immunol. 168, 3251-3258
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Functionally Distinct Subsets of CD1d-restricted Natural Killer T Cells Revealed by CD1d Tetramer Staining.
J. E. Gumperz, S. Miyake, T. Yamamura, and M. B. Brenner (2002)
J. Exp. Med. 195, 625-636
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Long-Term Survival of Corneal Allografts Is Dependent on Intact CD1d-Reactive NKT Cells.
K.-H. Sonoda, M. Taniguchi, and J. Stein-Streilein (2002)
J. Immunol. 168, 2028-2034
   Abstract »    Full Text »    PDF »


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