Systemic Lupus Erythematosus MHC Class I Family Proteins Retard Roopenian

[1]  D. Roopenian,et al.  The Neonatal FcR-Mediated Presentation of Immune-Complexed Antigen Is Associated with Endosomal and Phagosomal pH and Antigen Stability in Macrophages and Dendritic Cells , 2011, The Journal of Immunology.

[2]  D. Roopenian,et al.  CD8+ T regulatory cells express the Ly49 Class I MHC receptor and are defective in autoimmune prone B6-Yaa mice , 2011, Proceedings of the National Academy of Sciences.

[3]  Xiaolei Tang,et al.  Inhibition of follicular T helper cells by CD8+ Treg is essential for self tolerance , 2010, Nature.

[4]  A. La Cava,et al.  CD8+ Tregs in lupus, autoimmunity, and beyond. , 2010, Autoimmunity reviews.

[5]  J. Ward,et al.  The Histopathologic and Molecular Basis for the Diagnosis of Histiocytic Sarcoma and Histiocyte–Associated Lymphoma of Mice , 2010, Veterinary pathology.

[6]  Sung-Hwan Park,et al.  Incidence of cancer among female patients with systemic lupus erythematosus in Korea , 2010, Clinical Rheumatology.

[7]  C. Weyand,et al.  Treating autoimmune disease by targeting CD8+ T suppressor cells , 2009, Expert opinion on biological therapy.

[8]  C. Gordon,et al.  Lupus and cancer , 2009, Lupus.

[9]  W. Leonard,et al.  A critical role for IL-21 receptor signaling in the pathogenesis of systemic lupus erythematosus in BXSB-Yaa mice , 2009, Proceedings of the National Academy of Sciences.

[10]  R. Flavell,et al.  ICOS-dependent extrafollicular helper T cells elicit IgG production via IL-21 in systemic autoimmunity , 2008, The Journal of experimental medicine.

[11]  L. Chess,et al.  Qa-1/HLA-E-restricted regulatory CD8+ T cells and self-nonself discrimination: an essay on peripheral T-cell regulation. , 2008, Human immunology.

[12]  Y. Okuno,et al.  Are CD8+CD122+ cells regulatory T cells or memory T cells? , 2008, Human immunology.

[13]  D. Zillikens,et al.  Neonatal Fc receptor deficiency protects from tissue injury in experimental epidermolysis bullosa acquisita , 2008, Journal of Molecular Medicine.

[14]  T. Nomura,et al.  Regulatory T Cells and Immune Tolerance , 2008, Cell.

[15]  J. Andersen,et al.  Dependence of antibody-mediated presentation of antigen on FcRn , 2008, Proceedings of the National Academy of Sciences.

[16]  A. Lukacher,et al.  Generation of Antiviral Major Histocompatibility Complex Class I-Restricted T Cells in the Absence of CD8 Coreceptors , 2008, Journal of Virology.

[17]  K. Isobe,et al.  Essential Role of CD8+CD122+ Regulatory T Cells in the Recovery from Experimental Autoimmune Encephalomyelitis1 , 2008, The Journal of Immunology.

[18]  S. Akilesh,et al.  FcRn: the neonatal Fc receptor comes of age , 2007, Nature Reviews Immunology.

[19]  Hongzhu Liu,et al.  Examining the role of CD1d and natural killer T cells in the development of nephritis in a genetically susceptible lupus model. , 2007, Arthritis and rheumatism.

[20]  D. Roopenian,et al.  Complete FcRn dependence for intravenous Ig therapy in autoimmune skin blistering diseases. , 2005, The Journal of clinical investigation.

[21]  L. Benoit,et al.  Influence of Xenogeneic β2-Microglobulin on Functional Recognition of H-2Kb by the NK Cell Inhibitory Receptor Ly49C1 , 2005, The Journal of Immunology.

[22]  D. Gladman,et al.  An international cohort study of cancer in systemic lupus erythematosus. , 2005, Arthritis and rheumatism.

[23]  D. Singer,et al.  MHC class I expression regulates susceptibility to spontaneous autoimmune disease in (NZBxNZW)F1 mice , 2005, Lupus.

[24]  Linrong Lu,et al.  Qa-1 restriction of CD8+ suppressor T cells. , 2004, The Journal of clinical investigation.

[25]  S. Akilesh,et al.  The MHC class I-like Fc receptor promotes humorally mediated autoimmune disease. , 2004, The Journal of clinical investigation.

[26]  Andreas Radbruch,et al.  Short-lived plasmablasts and long-lived plasma cells contribute to chronic humoral autoimmunity in NZB/W mice , 2004 .

[27]  N. Matsumoto,et al.  A species-specific determinant on beta2-microglobulin required for Ly49A recognition of its MHC class I ligand. , 2004, International immunology.

[28]  V. Cerundolo,et al.  Immunoregulatory Role of CD1d in the Hydrocarbon Oil-Induced Model of Lupus Nephritis1 , 2003, The Journal of Immunology.

[29]  S. Akilesh,et al.  Customized molecular phenotyping by quantitative gene expression and pattern recognition analysis. , 2003, Genome research.

[30]  E. Choi,et al.  The MHC Class I-Like IgG Receptor Controls Perinatal IgG Transport, IgG Homeostasis, and Fate of IgG-Fc-Coupled Drugs1 , 2003, The Journal of Immunology.

[31]  Chad W. Euler,et al.  Evolution of Autoantibody Responses via Somatic Hypermutation Outside of Germinal Centers , 2002, Science.

[32]  N. Harris,et al.  Bethesda proposals for classification of lymphoid neoplasms in mice. , 2002, Blood.

[33]  M. Shlomchik,et al.  Deficiency in β2-Microglobulin, But Not CD1, Accelerates Spontaneous Lupus Skin Disease While Inhibiting Nephritis in MRL-Faslpr Mice: An Example of Disease Regulation at the Organ Level1 , 2001, The Journal of Immunology.

[34]  D. Kono,et al.  The role of alpha beta+ T cells and homeostatic T cell proliferation in Y-chromosome-associated murine lupus. , 2001, Journal of immunology.

[35]  P. Marrack,et al.  Control of homeostasis of CD8+ memory T cells by opposing cytokines. , 2000, Science.

[36]  P. Morrissey,et al.  Reversible Defects in Natural Killer and Memory Cd8 T Cell Lineages in Interleukin 15–Deficient Mice , 2000, The Journal of experimental medicine.

[37]  K. Lennert,et al.  Splenic marginal zone lymphomas of mice. , 1999, The American journal of pathology.

[38]  G. Srivastava,et al.  Progression of spontaneous lymphomas in SJL mice: monitoring in vivo clonal evolution with molecular markers in sequential splenic samples. , 1998, Laboratory investigation; a journal of technical methods and pathology.

[39]  H. Ploegh,et al.  Major histocompatibility complex (MHC) class I KbDb -/- deficient mice possess functional CD8+ T cells and natural killer cells. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[40]  M. Llano,et al.  HLA-E is a major ligand for the natural killer inhibitory receptor CD94/NKG2A. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[41]  S. Ikehara,et al.  Effects of administration of monoclonal antibodies (anti-CD4 or anti-CD8) on the development of autoimmune diseases in (NZW x BXSB)F1 mice. , 1998, Immunobiology.

[42]  M. Bevan,et al.  CD8 lineage commitment in the absence of CD8. , 1997, Immunity.

[43]  Seokmann Hong,et al.  CD1d1 mutant mice are deficient in natural T cells that promptly produce IL-4. , 1997, Immunity.

[44]  R. Blankenburg,et al.  beta2-microglobulin dependence of the lupus-like autoimmune syndrome of MRL-lpr mice. , 1996, Journal of immunology.

[45]  S. Tonegawa,et al.  Increase in positive selection of CD8+ T cells in TAP1-mutant mice by human beta 2-microglobulin transgene , 1995, The Journal of experimental medicine.

[46]  Hans Hengartner,et al.  Cytotoxicity mediated by T cells and natural killer cells is greatly impaired in perforin-deficient mice , 1994, Nature.

[47]  N. Ponzio,et al.  Influence of T-helper cell specific monoclonal antibody on progressive growth of B-cell lymphomas in SJL/J mice: correlation of acute treatment dosage with tumor dormancy or complete remission in long-term survivors. , 1990, Cancer communications.

[48]  E. Chow,et al.  Age‐related changes in the morphology and immunophenotype of spontaneous lymphomas of sjl/n mice , 1988, The Journal of pathology.

[49]  N. Ponzio,et al.  In vivo growth inhibition of Ia+ lymphomas in SJL mice treated with I-As-reactive monoclonal antibody. , 1986, Immunopharmacology.

[50]  R. Germain,et al.  Rearrangement and transcription of a T-cell receptor beta-chain gene in different T-cell subsets. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[51]  R. K. Kumar,et al.  Hodgkin's disease. SJL/J murine lymphoma. , 1983, The American journal of pathology.

[52]  A. Theofilopoulos,et al.  Suppression of transferred BXSB male SLE disease by female spleen cells. , 1982, Journal of immunology.

[53]  L. Stanton,et al.  On immunoglobulin heavy chain gene switching: two gamma 2b genes are rearranged via switch sequences in MPC-11 cells but only one is expressed. , 1982, Nucleic acids research.

[54]  D. Lowy,et al.  Structure of endogenous murine leukemia virus DNA in mouse genomes. , 1980, Proceedings of the National Academy of Sciences of the United States of America.

[55]  J. Roths,et al.  A Y chromosome associated factor in strain BXSB producing accelerated autoimmunity and lymphoproliferation. , 1979, Arthritis and rheumatism.

[56]  A. Theofilopoulos,et al.  Spontaneous murine lupus-like syndromes. Clinical and immunopathological manifestations in several strains , 1978, The Journal of experimental medicine.

[57]  E. Murphy Sjl/j, a new inbred strain of mouse with a high, early incidence of reticulum-cell neoplasma. Abstr. , 1963 .