Prevention of insulin-dependent diabetes mellitus in non-obese diabetic mice by transgenes encoding modified I-A β-chain or normal I-E α-chain

Lund, Torben; O’Reilly, Lorraine A.; Hutchings, P; Kanagawa, Osami; Simpson, Elizabeth; Gravely, Robert; Chandler, Phillip; Dyson, Julian; Picard, J; Edwards, Andrew; Kioussis, Dimitris; Cooke, Anne

doi:10.1038/345727a0

Cited by 332 publications

(198 citation statements)

References 19 publications

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“…Concordantly, treatment of NOD mice with anti-CD4 antibody abrogates disease (12,13). Introduction of MHC-II other than I-A g7 , the endogenous NOD MHC-II, also prevents diabetes, possibly by altering the CD4 ϩ T cell repertoire (14)(15)(16). Finally, the strong genetic linkage of disease to MHC-II provides a rationale for focusing on CD4 ϩ T cells (5,17,18).…”

mentioning

confidence: 99%

Restricted islet-cell reactive T cell repertoire of early pancreatic islet infiltrates in NOD mice

Baker

Lee

Chien

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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The mechanisms responsible for initiating autoimmune diabetes remain obscure. Here, we describe a method for identifying both the ␣-and ␤-chains of the T cell receptor (TCR) from individual pancreatic islet-infiltrating T cells at the earliest stages of disease in nonobese diabetic mice (NOD). Analysis of the TCR repertoire of these early islet infiltrates reveals enrichment for a small subset of TCR sequences. Reconstitution of these TCR in vitro demonstrates that these receptors confer reactivity to islet cells but not to the well characterized autoantigens, glutamic acid decarboxylase (GAD65) and insulin. Thus, autoimmune diabetes in NOD may be initiated by a limited number of antigens distinct from GAD65 and insulin.

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confidence: 99%

Restricted islet-cell reactive T cell repertoire of early pancreatic islet infiltrates in NOD mice

Baker

Lee

Chien

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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“…This approach has several drawbacks. First, the DRB3 and DRB4 genes are omitted from consideration despite their importance in many immune responses (15,16) and the fact that even single chain MHC class II genes can profoundly influence expression of autoimmune disease such as IDDM (17)(18)(19). Second, expression of independent transgenes ignores the possibility that multiple genes in the class II region contribute to disease susceptibility through interactions during positive and negative selection of the T cell repertoire or through aspects of their peripheral coregulation (20,21).…”

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confidence: 99%

A 320-Kilobase Artificial Chromosome Encoding the Human HLA DR3-DQ2 MHC Haplotype Confers HLA Restriction in Transgenic Mice

Chen

Dudek

Wijburg

et al. 2002

The Journal of Immunology

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MHC class II haplotypes control the specificity of Th immune responses and susceptibility to many autoimmune diseases. Understanding the role of HLA class II haplotypes in immunity is hampered by the lack of animal models expressing these genes as authentic cis-haplotypes. In this study we describe transgenic expression of the autoimmune prone HLA DR3-DQ2 haplotype from a yeast artificial chromosome (YAC) containing an intact ∼320-kb region from HLA DRA to DQB2. In YAC-transgenic mice HLA DR and DQ gene products were expressed on B cells, macrophages, and dendritic cells, but not on T cells indicating cell-specific regulation. Positive selection of the CD4 compartment by human class II molecules was 67% efficient in YAC-homozygous mice lacking endogenous class II molecules (Aβnull/null) and expressing only murine CD4. A broad range of TCR Vβ families was used in the peripheral T cell repertoire, which was also purged of Vβ5-, Vβ11-, and Vβ12-bearing T cells by endogenous mouse mammary tumor virus-encoded superantigens. Expression of the HLA DR3-DQ2 haplotype on the Aβnull/null background was associated with normal CD8-dependent clearance of virus from influenza-infected mice and development of CD4-dependent protection from otherwise lethal infection with Salmonella typhimurium. HLA DR- and DQ-restricted T cell responses were also elicited following immunization with known T cell determinants presented by these molecules. These findings demonstrate the potential for human MHC class II haplotypes to function efficiently in transgenic mice and should provide valuable tools for developing humanized models of MHC-associated autoimmune diseases.

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“…In the NOD model of autoimmune diabetes, numerous past reports have indicated that MHC heterozygosity results in protection from disease (9)(10)(11)(12)(13)(14). In fact, the presence of any other ␤57 Asp-expressing class II MHC, in addition to I-A g7 , results in markedly decreased incidence of diabetes; for example is the result of F1 mice derived from mating of wild type NOD (I-A g7 ) to NOD.GD (I-A d ), which are protected from diabetes (15).…”

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confidence: 99%

Specificity of peptide selection by antigen-presenting cells homozygous or heterozygous for expression of class II MHC molecules: The lack of competition

Suri

Walters

Kanagawa

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

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Prevention of insulin-dependent diabetes mellitus in non-obese diabetic mice by transgenes encoding modified I-A β-chain or normal I-E α-chain

Cited by 332 publications

References 19 publications

Restricted islet-cell reactive T cell repertoire of early pancreatic islet infiltrates in NOD mice

Restricted islet-cell reactive T cell repertoire of early pancreatic islet infiltrates in NOD mice

A 320-Kilobase Artificial Chromosome Encoding the Human HLA DR3-DQ2 MHC Haplotype Confers HLA Restriction in Transgenic Mice

Specificity of peptide selection by antigen-presenting cells homozygous or heterozygous for expression of class II MHC molecules: The lack of competition

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