Abstract
Abstract During an immune response, CTL clones are present that exhibit a wide spectrum of peptide sensitivities. While the property of functional avidity has been well documented, the range of mechanism(s) by which this T cell property can be regulated is unknown. For example, an unresolved question is whether distinct naïve T cell subsets exist that display “inherent” differences in their peptide requirements for activation, i.e. functional avidity. In this scenario distinct naïve T cell clones would selectively respond upon encountering a high vs. low antigen concentration. Alternatively, differences in peptide sensitivity could be an “induced” property within the responding CTL population following encounter with an APC. Although the latter model is consistent with data from previous studies, formal demonstration that a single clone can give rise to both high and low avidity daughter cells is lacking. Using a TCR transgenic model in which both high and low avidity CTL can be generated, we now demonstrate that naïve T cells do not exhibit differences in the amount of peptide required for conjugate formation and subsequent proliferation/activation. Furthermore, we show that individual T cell clones are capable of differentiating into either a high or low avidity CTL. These results provide the first formal demonstration that an individual cell can give rise to both high and low avidity progeny, suggesting that avidity modulation at the level of an individual cell may be an important contributor to the functional avidity of the CD8+ T cell response generated in vivo. This work was supported by National Institutes of Health grant R01 AI43591 to M.A.A-M.
Published Version
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