In a small multideterminant peptide, each determinant is recognized by a different V beta gene segment.
Given the vast potential for diversification of the T cell receptor (TCR) repertoire and the fact that V(a) beta mice exist in the wild, it would have been predicted that in spite of the absence of 10 TCR V beta gene segments, V(a) beta mice would still have been able to produce an antigen-specific...
| Published in: | Journal of Experimental Medicine |
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| Main Authors: | , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Rockefeller University Press
1992
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| Subjects: | |
| Online Access: | http://dx.doi.org/10.1084/jem.176.1.297 https://rupress.org/jem/article-pdf/176/1/297/1673226/297.pdf |
| Summary: | Given the vast potential for diversification of the T cell receptor (TCR) repertoire and the fact that V(a) beta mice exist in the wild, it would have been predicted that in spite of the absence of 10 TCR V beta gene segments, V(a) beta mice would still have been able to produce an antigen-specific T cell response to all determinants. We have recently shown that Vb beta mice, with a wild-type TCR V beta repertoire, respond to peptide 110-121 of sperm whale myoglobin, with a majority of T cells expressing TCR V beta 8.2 and restricted to a hybrid I-A(d)/I-E(d) major histocompatibility complex molecule, and a smaller number of T cells expressing TCR V beta 8.1 and restricted to the I-A(d) molecule. However, V(a) beta mice, lacking members of the TCR V beta 8 gene family, responded only with I-A(d)-restricted T cells. Thus, it appeared that the I-A(d)-restricted response was less constrained, or more plastic. We now show that the two separate panels of I-A(d)-restricted T cell hybrids derived from V(a) beta or Vb beta mice in fact recognize distinct determinants within the same peptide 110-121. The determinant recognized by V(a) beta T cells is NH2 terminal (core: 110-118) with an absolute requirement for the residue Ala-110 for a successful interaction with TCRs. On the other hand, Vb beta T cells recognize the COOH-terminal region (core: 112-118) on the same peptide with an absolute requirement for COOH-terminal residue 118. In the dominance hierarchy displayed by the three distinct determinants of peptide 110-121, V(a) beta mice cannot recognize the two most dominant: the hybrid I-A(d)/I-E(d)-restricted determinant and the COOH-terminal, I-A(d)-restricted determinant. They instead respond with T cells specific for a third, distinctly NH2-terminal determinant. Our results show a strict association between recognition of a particular specificity and TCR V beta usage. This evidence suggests that even when a small peptide induces a heterogenous group of TCR V beta S, this need not be considered evidence for ... |
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