Microbiology & Immunology - Research Publications

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    Contribution of T cell receptor affinity to overall avidity for virus-specific CD8+ T cell responses
    Kedzierska, K ; La Gruta, NL ; Davenport, MP ; Turner, SJ ; Doherty, PC (NATL ACAD SCIENCES, 2005-08-09)
    Prior analysis has characterized the clonal characteristics of effector CD8(+) T cells specific for the prominent influenza A virus nucleoprotein (NP) and acid polymerase (PA) peptides presented by H2D(b). Using a single-cell approach and determination of CDR3beta profiles, a limited, predominantly "public" repertoire was found for CD8(+)D(b)NP(366)(+)Vbeta8.3+ cells, whereas diverse and "private" T cell antigen receptor (TCR)beta clonotypes were typical of the CD8(+)D(b)PA(224)(+)Vbeta7+ response. This single-cell approach has now been used to relate the contributions of particular clonotypes (or affinities) to high-avidity TCRs, as defined by binding under conditions of limiting tetramer availability. At least by the measure of CDR3beta usage, no difference could be found between total and high-avidity populations in the spectrum of TCR-pMHC affinities throughout the limited, and relatively public, CD8(+)D(b)NP(366)(+)Vbeta8.3+ populations. Conversely, the more even (by clone size), diverse, and private CD8(+)D(b)PA(224)(+)Vbeta7+ response was characterized by the clear partitioning of the largest T cell clones in the high-avidity compartment. These results suggest that the relatively constrained CD8(+)D(b)NP(366)(+)Vbeta8.3+ set utilizes a relatively narrow range of affinities, whereas the broader CD8(+)D(b)PA(224)(+)Vbeta7+ response is induced at a range of TCR-pMHC affinities. Thus, whereas TCR sequence (or affinity) appears to contribute substantially to the avidity profile of diverse virus-specific CD8+ populations, other mechanisms may be prominent where the TCR spectrum is more limited.
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    Conserved T cell receptor usage in primary and recall responses to an immunodominant influenza virus nucleoprotein epitope
    Kedzierska, K ; Turner, SJ ; Doherty, PC (NATL ACAD SCIENCES, 2004-04-06)
    The CD8+ T cell response to the immunodominant DbNP366 epitope has been analyzed sequentially to determine the prevalence and persistence of different T cell antigen receptor (TCR)Vbeta8.3 clonotypes after primary and secondary influenza virus challenge. Based on the length and amino acid sequences of the complementarity-determining region 3 of TCRbeta (CDR3beta) loop and associated Jbeta usage, the same dominant TCRbeta signatures were found in the blood, the spleen, and the site of virus-induced pathology in the infected respiratory tract. Longitudinal analysis demonstrated that TCRbeta prominent in the antigen-driven phase of response persisted into memory and were again expanded after secondary challenge. A proportion of these high-frequency TCRbeta expressed "public" CDR3beta sequences that were detected in every mouse sampled, whereas others were found more than once but were not invariably present. Analysis of N-region nucleotide diversity established that as many as 10 different nucleic acid sequences (maximum of four "nucleotypes" in any one mouse) could encode a single public TCRbeta amino acid sequence. Conversely, whereas some of the unique, "private" TCRbeta achieved a substantial clone size, they were always specified by a single nucleotype. Although there is a strong stochastic element in this response, the public TCRbeta seem to represent a "best fit" for this immunodominant epitope, are selected preferentially from the naive TCR repertoire, and assume even greater prominence after secondary challenge.
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    A virus-specific CD8+ T cell immunodominance hierarchy determined by antigen dose and precursor frequencies
    La Gruta, NL ; Kedzierska, K ; Pang, K ; Davenport, M ; Chen, WS ; Turner, SJ ; Doherty, PC (NATL ACAD SCIENCES, 2006-01-24)
    Immunodominance hierarchies are a substantial, but poorly understood, characteristic of CD8(+) T cell-mediated immunity. Factors influencing the differential responses to the influenza A virus nucleoprotein (NP(366-374)) and acid polymerase (PA(224-233)) peptides presented by H2D(b) have been analyzed by disabling (N5--> Q substitution) these peptides in their native configuration, then expressing them in the viral neuraminidase protein. This strategy of shifting epitopes within the same viral context resulted in an apparent equalization of D(b)NP(366) [epitope consisting of viral nucleoprotein (NP) amino acid residues 366-374 complexed with the H2D(b) MHC class I glycoprotein] and D(b)PA(224) (H2D(b)+PA(224-233)) epitope abundance after direct infection in vitro and induced reproducible changes in the magnitude of the D(b)NP(366)- and D(b)PA(224)-specific T cell subsets generated after infection of mice. Comparison of D(b)NP(366)- and D(b) PA(224)-specific CD8(+) T cell responses induced from the native configuration and from the viral neuraminidase stalk demonstrated that the size of both primary and secondary responses is influenced by relative epitope levels and that, at least after secondary challenge, the magnitude of responses is also determined by CD8(+) T cell precursor frequency. Thus, this immunodominance hierarchy is a direct function of antigen dose and T cell numbers.
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    Lack of prominent peptide-major histocompatibility complex features limits repertoire diversity in virus-specific CD8+ T cell populations
    TURNER, STEPHEN JOHN ; KEDZIERSKA, KATHERINE ; KOMODROMOU, HELEN ; LA GRUTA, NICOLE LOUISE ; DUNSTONE, MICHELLE ; WEBB, ANDREW ; WEBBY, RICHARD ; WALDEN, HELEN ; XIE, WEIDONG ; MCCLUSKEY, JAMES ; PURCELL, ANTHONY ; ROSSJOHN, JAMIE ; DOHERTY, PETER CHARLES ( 2005)