T cells and their eons-old obsession with MHC

Summary T cells bearing receptors made up of α and β chains (TCRs) usually react with peptides bound to major histocompatibility complex proteins (MHC). This bias could be imposed by positive selection, the phenomenon that selects thymocytes to mature into T cells only if the TCRs they bear react wi...

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Veröffentlicht in:	Immunological reviews 2012-11, Vol.250 (1), p.49-60
Hauptverfasser:	Yin, Lei, Scott-Browne, James, Kappler, John W., Gapin, Laurent, Marrack, Philippa
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Antigens - chemistry Antigens - immunology Antigens - metabolism Binding Sites comparative immunology Cross Reactions Humans Major Histocompatibility Complex - immunology Mice Models, Molecular Peptides - chemistry Peptides - immunology Peptides - metabolism Protein Binding Protein Conformation Receptors, Antigen, T-Cell, alpha-beta - chemistry Receptors, Antigen, T-Cell, alpha-beta - immunology Receptors, Antigen, T-Cell, alpha-beta - metabolism T cells T-cell receptors T-Lymphocytes - cytology T-Lymphocytes - immunology T-Lymphocytes - metabolism Thymocytes - cytology Thymocytes - immunology thymus Thymus Gland
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description	Summary T cells bearing receptors made up of α and β chains (TCRs) usually react with peptides bound to major histocompatibility complex proteins (MHC). This bias could be imposed by positive selection, the phenomenon that selects thymocytes to mature into T cells only if the TCRs they bear react with low but appreciable affinity with MHC + peptide combinations in the thymus cortex. However, it is also possible that the polypeptides of TCRs themselves do not have random specificities but rather are biased toward reaction with MHC. Evolution would therefore have selected for a collection of TCR variable elements that are prone to react with MHC. If this were to be so, positive selection would act on thymocytes bearing a pre biased collection of TCRs to pick out those that react to some extent, but not too well, with self MHC + self‐peptides. A problem with studies of this evolutionary idea is the fact that there are many TCR variable elements and that these differ considerably in the amino acids with which they contact MHC. However, recent experiments by our group and others suggest that one group of TCR variable elements, those related to the mouse Vβ8 family, has amino acids in their CDR2 regions that consistently bind a particular site on an MHC α‐helix. Other groups of variable elements may use different patterns of amino acids to achieve the same goal. Mutation of these amino acids reduces the ability of T cells and thymocytes to react with MHC. These amino acids are present in the variable regions of distantly related species such as sharks and human. Overall the data indicate that TCR elements have indeed been selected by evolution to react with MHC proteins. Many mysteries about TCRs remain to be solved, including the nature of auto‐recognition, the basis of MHC allele specificity, and the very nature and complexity of TCRs on mature T cells.
doi_str_mv	10.1111/imr.12004
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This bias could be imposed by positive selection, the phenomenon that selects thymocytes to mature into T cells only if the TCRs they bear react with low but appreciable affinity with MHC + peptide combinations in the thymus cortex. However, it is also possible that the polypeptides of TCRs themselves do not have random specificities but rather are biased toward reaction with MHC. Evolution would therefore have selected for a collection of TCR variable elements that are prone to react with MHC. If this were to be so, positive selection would act on thymocytes bearing a pre biased collection of TCRs to pick out those that react to some extent, but not too well, with self MHC + self‐peptides. A problem with studies of this evolutionary idea is the fact that there are many TCR variable elements and that these differ considerably in the amino acids with which they contact MHC. However, recent experiments by our group and others suggest that one group of TCR variable elements, those related to the mouse Vβ8 family, has amino acids in their CDR2 regions that consistently bind a particular site on an MHC α‐helix. Other groups of variable elements may use different patterns of amino acids to achieve the same goal. Mutation of these amino acids reduces the ability of T cells and thymocytes to react with MHC. These amino acids are present in the variable regions of distantly related species such as sharks and human. Overall the data indicate that TCR elements have indeed been selected by evolution to react with MHC proteins. 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This bias could be imposed by positive selection, the phenomenon that selects thymocytes to mature into T cells only if the TCRs they bear react with low but appreciable affinity with MHC + peptide combinations in the thymus cortex. However, it is also possible that the polypeptides of TCRs themselves do not have random specificities but rather are biased toward reaction with MHC. Evolution would therefore have selected for a collection of TCR variable elements that are prone to react with MHC. If this were to be so, positive selection would act on thymocytes bearing a pre biased collection of TCRs to pick out those that react to some extent, but not too well, with self MHC + self‐peptides. A problem with studies of this evolutionary idea is the fact that there are many TCR variable elements and that these differ considerably in the amino acids with which they contact MHC. However, recent experiments by our group and others suggest that one group of TCR variable elements, those related to the mouse Vβ8 family, has amino acids in their CDR2 regions that consistently bind a particular site on an MHC α‐helix. Other groups of variable elements may use different patterns of amino acids to achieve the same goal. Mutation of these amino acids reduces the ability of T cells and thymocytes to react with MHC. These amino acids are present in the variable regions of distantly related species such as sharks and human. Overall the data indicate that TCR elements have indeed been selected by evolution to react with MHC proteins. 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This bias could be imposed by positive selection, the phenomenon that selects thymocytes to mature into T cells only if the TCRs they bear react with low but appreciable affinity with MHC + peptide combinations in the thymus cortex. However, it is also possible that the polypeptides of TCRs themselves do not have random specificities but rather are biased toward reaction with MHC. Evolution would therefore have selected for a collection of TCR variable elements that are prone to react with MHC. If this were to be so, positive selection would act on thymocytes bearing a pre biased collection of TCRs to pick out those that react to some extent, but not too well, with self MHC + self‐peptides. A problem with studies of this evolutionary idea is the fact that there are many TCR variable elements and that these differ considerably in the amino acids with which they contact MHC. However, recent experiments by our group and others suggest that one group of TCR variable elements, those related to the mouse Vβ8 family, has amino acids in their CDR2 regions that consistently bind a particular site on an MHC α‐helix. Other groups of variable elements may use different patterns of amino acids to achieve the same goal. Mutation of these amino acids reduces the ability of T cells and thymocytes to react with MHC. These amino acids are present in the variable regions of distantly related species such as sharks and human. Overall the data indicate that TCR elements have indeed been selected by evolution to react with MHC proteins. Many mysteries about TCRs remain to be solved, including the nature of auto‐recognition, the basis of MHC allele specificity, and the very nature and complexity of TCRs on mature T cells.</abstract><cop>England</cop><pub>Blackwell Publishing Ltd</pub><pmid>23046122</pmid><doi>10.1111/imr.12004</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Antigens - chemistry Antigens - immunology Antigens - metabolism Binding Sites comparative immunology Cross Reactions Humans Major Histocompatibility Complex - immunology Mice Models, Molecular Peptides - chemistry Peptides - immunology Peptides - metabolism Protein Binding Protein Conformation Receptors, Antigen, T-Cell, alpha-beta - chemistry Receptors, Antigen, T-Cell, alpha-beta - immunology Receptors, Antigen, T-Cell, alpha-beta - metabolism T cells T-cell receptors T-Lymphocytes - cytology T-Lymphocytes - immunology T-Lymphocytes - metabolism Thymocytes - cytology Thymocytes - immunology thymus Thymus Gland
title	T cells and their eons-old obsession with MHC
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