Daniel Hansburg scite author profile

Only 10 different V beta gene segments were found when the sequences of 15 variable (V beta) genes of the mouse T-cell receptor were examined. From this analysis we calculate that the total number of expressed V beta gene segments may be 21 or fewer, which makes the expressed germline V beta repertoire much smaller than that of immunoglobulin heavy-chain or light-chain genes. We suggest that beta-chain somatic diversification is concentrated at the V beta-D beta-J beta junctions.

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Predominant use of a Vα gene segment in mouse T-cell receptors for cytochrome c

Winoto

Urban

Lan

et al. 1986

Nature

200

111

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The T-cell receptor is a cell surface heterodimer consisting of an alpha and a beta chain that binds foreign antigen in the context of a cell surface molecule encoded by the major histocompatibility complex (MHC), thus restricting the T-cell response to the surface of antigen presenting cells. The variable (V) domain of the receptor binds antigen and MHC molecules and is composed of distinct regions encoded by separate gene elements--variable (V alpha and V beta), diversity (D beta) and joining (J alpha and J beta)--rearranged and joined during T-cell differentiation to generate contiguous V alpha and V beta genes. T-helper cells, which facilitate T and B cell responses, bind antigen in the context of a class II MHC molecule. The helper T-cell response to cytochrome c in mice is a well-defined model for studying the T-cell response to restricted antigen and MHC determinants. Only mice expressing certain class II molecules can respond to this antigen (Ek alpha Ek beta, Ek alpha Eb beta, Ev alpha Ev beta and Ek alpha Es beta). Most T cells appear to recognize the C-terminal peptide of cytochrome c (residues 81-104 in pigeon cytochrome c). We have raised helper T cells to pigeon cytochrome c or its C-terminal peptide analogues in four different MHC congenic strains of mice encoding each of the four responding class II molecules. We have isolated and sequenced seven V alpha genes and six V beta genes and analysed seven additional helper T cells by Northern blot to compare the structure of the V alpha and V beta gene segments with their antigen and MHC specificities. We have added five examples taken from the literature. These data show that a single V alpha gene segment is responsible for a large part of the response of mice to cytochrome c but there is no simple correlation of MHC restriction with gene segment use.

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Selection of Amino Acid Sequences in the Beta Chain of the T Cell Antigen Receptor

Hedrick

Engel

McElligott

et al. 1988

Science

192

108

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The induction of an immune response in mammals is initiated by specifically reactive T lymphocytes. The specificity of the reaction is mediated by a complex receptor, part of which is highly variable in sequence and analogous to immunoglobulin heavy- and light-chain variable domains. The functional specificity of the T cell antigen receptor is, however, markedly different from immunoglobulins in that it mediates cell-cell interactions via the simultaneous recognition of foreign antigens and major histocompatibility complex-encoded molecules expressed on the surface of various lymphoid and nonlymphoid cells. The relation between the structure of the receptor and its functional specificity was investigated by analyzing the primary sequences of the receptors expressed by a series of T lymphocyte clones specific for a model antigen, pigeon cytochrome c. Within this set of T lymphocyte clones there was a striking selection for amino acid sequences in the receptor beta-chain in the region analogous to the third complementarity-determining region of immunoglobulins. Thus, despite the functional differences between T cell antigen receptors and immunoglobulin molecules, analogous regions appear to be important in determining ligand specificity.

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Contribution of antigen-presenting cell major histocompatibility complex gene products to the specificity of antigen-induced T cell activation

Heber‐Katz¹,

Schwartz²,

Matis³

et al. 1982

158

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Previous studies from our laboratory showed that B 10.A mice are high responders to pigeon cytochrome c fragment 81-104, whereas B 10.A(5R) mice are low responders. In the present studies, the C-terminal cyanogen bromide cleavage fragment and homologous synthetic peptides of tobacco horn worm moth cytochrome c were shown to be immunogenic in both B10.A and B10.A(5R) mice. These strains, however, showed different patterns of cross-reactivity when immune lymph node T cells were stimulated with cytochrome c fragments from other species. To examine the two patterns of responsiveness at a clonal level, cytochrome c fragment-specific T cell hybridomas were made and found to secrete interleukin 2 in response to antigen. The patterns of cross- reactivity of these B 10.A and B 10.A(5R) clones were similar to that seen in the whole lymph node population. Surprisingly, when these clones were tested for major histocompatibility complex (MHC)-restricted antigen recognition, they were all found to respond to antigen with both B10.A and B10.A(5R) antigen-presenting cells (APC). Furthermore, the cross-reactivity pattern appeared to be largely determined by the genotype of the APC, not the genotype of the T cell clone. That is, a given T cell clone displayed a different fine specificity when assayed with B10.A or B10.A(5R) APC. This observation indicates that the APC MHC gene product and antigen interact during the stimulation of the T cell response and that as a consequence the specificity of antigen-induced T cell activation is influenced by these MHC gene products. (During the preparation of this manuscript it has come to our attention that results similar to our own, concerning the fine specificity of cytotoxic T cell clones, have been obtained by Dr. T. R. Hunig and Dr. M. J. Bevan, Massachusetts Institute of Technology, Boston, MA. T. R. Hunig and M. J. Bevan. 1981. Specificity of T-cell clones illustrates altered self hypothesis. Nature. 294:460.)

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Rearranged β t cell receptor genes in a helper t cell clone specific for lysozyme: No correlation between Vβ and MHC restriction

Goverman

Minard

Shastri

et al. 1985

Cell

118

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Daniel Hansburg

The murine T-cell receptor uses a limited repertoire of expressed Vβ gene segments

Predominant use of a Vα gene segment in mouse T-cell receptors for cytochrome c

Selection of Amino Acid Sequences in the Beta Chain of the T Cell Antigen Receptor

Contribution of antigen-presenting cell major histocompatibility complex gene products to the specificity of antigen-induced T cell activation

Rearranged β t cell receptor genes in a helper t cell clone specific for lysozyme: No correlation between Vβ and MHC restriction

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