Defective central tolerance induction in NOD mice: Genomics and genetics

Silvia Zucchelli; Phil Holler; Tetsuya Yamagata; Matthew Roy; Christophe Benoist; Diane Mathis

doi:10.1016/j.immuni.2005.01.015

Defective central tolerance induction in NOD mice: Genomics and genetics

Silvia Zucchelli
, Phil Holler
, Tetsuya Yamagata
, Matthew Roy
, Christophe Benoist
, Diane Mathis

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

The genetic determinism of type-1 diabetes in NOD mice likely involves complementary defects in central T cell tolerance induction and peripheral immunoregulation. To study the contribution of the NOD genetic background to central tolerance, we followed the behavior of BDC2.5 clonotype thymocytes in fetal thymic organ cultures (FTOC). The NOD genetic background encodes a quantitative deficiency in the ability to delete these self-reactive thymocytes and to divert them to the CD8αα lineage. In genetic analyses, comparing NOD and B6.H2^g7 FTOCs, the NOD defect incorporated the influence of several loci (notably ones on chr1 and 3). Microarray analyses assessing FTOCs from the same two strains argued that the NOD abnormality reflects the combined effects of turning down the gene expression program that provokes apoptosis and turning on a new program promoting cell survival. Intersection of the data from the two approaches points to a small set of attractive candidate genes.

Lingua originale	Inglese
pagine (da-a)	385-396
Numero di pagine	12
Rivista	Immunity
Volume	22
Numero di pubblicazione	3
DOI	https://doi.org/10.1016/j.immuni.2005.01.015
Stato di pubblicazione	Pubblicato - mar 2005
Pubblicato esternamente	Sì

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10.1016/j.immuni.2005.01.015

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title = "Defective central tolerance induction in NOD mice: Genomics and genetics",

abstract = "The genetic determinism of type-1 diabetes in NOD mice likely involves complementary defects in central T cell tolerance induction and peripheral immunoregulation. To study the contribution of the NOD genetic background to central tolerance, we followed the behavior of BDC2.5 clonotype thymocytes in fetal thymic organ cultures (FTOC). The NOD genetic background encodes a quantitative deficiency in the ability to delete these self-reactive thymocytes and to divert them to the CD8αα lineage. In genetic analyses, comparing NOD and B6.H2g7 FTOCs, the NOD defect incorporated the influence of several loci (notably ones on chr1 and 3). Microarray analyses assessing FTOCs from the same two strains argued that the NOD abnormality reflects the combined effects of turning down the gene expression program that provokes apoptosis and turning on a new program promoting cell survival. Intersection of the data from the two approaches points to a small set of attractive candidate genes.",

author = "Silvia Zucchelli and Phil Holler and Tetsuya Yamagata and Matthew Roy and Christophe Benoist and Diane Mathis",

note = "Funding Information: We thank E. Hyatt and T. Lipatova for help with maintaining the mouse colony, W. Besse and R. Melamed for help with the genotyping and microarray data analysis, G. Losyev for flow cytometric analysis, R. Falcone and the Microrarray Core for chip hybridization, and members of the cbdm diabetes group for inspiring discussion. This work was supported by a grant from the Juvenile Diabetes Research Foundation to D.M. and C.B. (4-2004-368), funds from the William T. Young Chair in Diabetes Research, and Joslin{\textquoteright}s National Institute of Diabetes and Digestive Kidney Diseases-funded Diabetes and Endocrinology Research Center cores. S.Z. received postdoctoral fellowship support from the American Diabetes Association (Mentor-based Fellowship), P.H. received support from the Cancer Research Institute, and T.Y. received support from the Uehara Memorial Foundation and the Iacocca Foundation. ",

year = "2005",

month = mar,

doi = "10.1016/j.immuni.2005.01.015",

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pages = "385--396",

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AU - Roy, Matthew

AU - Benoist, Christophe

AU - Mathis, Diane

N1 - Funding Information: We thank E. Hyatt and T. Lipatova for help with maintaining the mouse colony, W. Besse and R. Melamed for help with the genotyping and microarray data analysis, G. Losyev for flow cytometric analysis, R. Falcone and the Microrarray Core for chip hybridization, and members of the cbdm diabetes group for inspiring discussion. This work was supported by a grant from the Juvenile Diabetes Research Foundation to D.M. and C.B. (4-2004-368), funds from the William T. Young Chair in Diabetes Research, and Joslin’s National Institute of Diabetes and Digestive Kidney Diseases-funded Diabetes and Endocrinology Research Center cores. S.Z. received postdoctoral fellowship support from the American Diabetes Association (Mentor-based Fellowship), P.H. received support from the Cancer Research Institute, and T.Y. received support from the Uehara Memorial Foundation and the Iacocca Foundation.

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AB - The genetic determinism of type-1 diabetes in NOD mice likely involves complementary defects in central T cell tolerance induction and peripheral immunoregulation. To study the contribution of the NOD genetic background to central tolerance, we followed the behavior of BDC2.5 clonotype thymocytes in fetal thymic organ cultures (FTOC). The NOD genetic background encodes a quantitative deficiency in the ability to delete these self-reactive thymocytes and to divert them to the CD8αα lineage. In genetic analyses, comparing NOD and B6.H2g7 FTOCs, the NOD defect incorporated the influence of several loci (notably ones on chr1 and 3). Microarray analyses assessing FTOCs from the same two strains argued that the NOD abnormality reflects the combined effects of turning down the gene expression program that provokes apoptosis and turning on a new program promoting cell survival. Intersection of the data from the two approaches points to a small set of attractive candidate genes.

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Defective central tolerance induction in NOD mice: Genomics and genetics

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