R Schneider scite author profile

The mature T-cell antigen receptor repertoire is characterized by lack of reactivity to self-components as well as by preferential reactivity to foreign antigens in the context of polymorphic self-proteins encoded within the major histocompatibility complex. Whereas the former characteristic (referred to as negative selection or tolerance) is associated with intrathymic deletion of T cells expressing T-cell antigen receptor beta-chain variable (V beta) domains, which confer a preferential reactivity to self antigens, the existence of the latter (referred to as positive selection or MHC restriction) has so far only been inferred indirectly from functional studies. We show here that intrathymic deletion of V+beta 6 T cells (reactive with a self-antigen encoded by the Mlsa locus) is controlled by polymorphic MHC class II determinants. Furthermore, in mice lacking expression of Mlsa, the same class II MHC loci control the frequency of occurrence of V+beta 6 cells among mature CD4+ T lymphocytes. These data are direct evidence for positive selection by MHC determinants in the thymus in unmanipulated animals.

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Deletion of self-reactive T cells before entry into the thymus medulla

Hengartner

Odermatt

Schneider

et al. 1988

Nature

154

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The thymus is important in the differentiation of bone marrow-derived precursor cells into functional T cells; humoral factors, as well as physical interactions with nurse cells, dendritic cells and epithelial cells, are thought to be instrumental in this process. Thymic lymphocytes mature during their migration from the cortical to the medullary region of the thymus, when they undergo phenotypic changes that include the acquisitions of T-cell antigen receptors, hormone receptors and differentiation antigens. Cortical T cells are thus mostly CD4+CD8+, whereas medullary T cells are either CD4+CD8- or CD4-CD8+. During this period T cells are subjected to two types of repertoire selection: all T cells recognizing self-MHC with low affinity may be preferentially amplified (positive selection), and in a second step T cells with high-affinity receptors for self-MHC determinants plus self antigens are eliminated (negative selection). We have described two monoclonal antibodies specific for the V beta 6 gene segment of the alpha/beta heterodimeric T-cell antigen receptor and have shown that most CD4+/V beta 6+ T cell recognize the Mlsa antigenic determinant but not Mlsb; similar results have been reported for V beta 8.1 and Mlsa. In both situations, tolerance to Mlsa correlated in an MHC-dependent fashion with absence of V beta 6 or V beta 8.1 T-cell antigen receptor expressing T cells in the periphery. We show here by immunostaining of thymus cryosections and cytofluorometric analysis that V beta 6-expressing cortical T cells are present at high density in both Mlsa and Mlsb mice, but do not enter the medullary region of Mlsa animals.

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T‐Cell Reactivity and Tolerance to Mls^a‐Encoded Antigens

MacDonald

Glasebrook

Schneider

et al. 1989

Immunological Reviews

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T‐Cell Lineages, Repertoire Selection and Tolerance Induction

MacDonald

Howe

Pedrazzini³

et al. 1988

Immunological Reviews

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R Schneider

T-cell receptor Vβ use predicts reactivity and tolerance to Mlsa- encoded antigens

Positive selection of CD4+ thymocytes controlled by MHC class II gene products

Deletion of self-reactive T cells before entry into the thymus medulla

T‐Cell Reactivity and Tolerance to Mls^a‐Encoded Antigens

T‐Cell Lineages, Repertoire Selection and Tolerance Induction

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R Schneider

T-cell receptor Vβ use predicts reactivity and tolerance to Mlsa- encoded antigens

Positive selection of CD4+ thymocytes controlled by MHC class II gene products

Deletion of self-reactive T cells before entry into the thymus medulla

T‐Cell Reactivity and Tolerance to Mlsa‐Encoded Antigens

T‐Cell Lineages, Repertoire Selection and Tolerance Induction

Contact Info

Product

Resources

About

T‐Cell Reactivity and Tolerance to Mls^a‐Encoded Antigens