Jonas Sundbäck scite author profile

The missing self model predicts that NK cells adapt somatically to the type as well as levels of MHC class I products expressed by their host. Transgenic and gene knock-out mice have provided conclusive evidence that MHC class I genes control specificity and tolerance of NK cells. The article describes this control and discusses the possible mechanisms behind it, starting from a genetic model to study how natural resistance to tumors is influenced by MHC class I expression in the host as well as in the target cells. Data on host gene regulation of NK-cell functional specificity as well as Ly49 receptor expression are reviewed, leading up to the central question: how does the system develop and maintain "useful" NK cells, while avoiding "harmful" and "useless" ones? The available data can be fitted within each of two mutually none-exclusive models: cellular adaptation and clonal selection. Recent studies supporting cellular adaptation bring the focus on different possibilities within this general mechanism, such as anergy, receptor calibration and, most importantly, whether the specificity of each NK cell is permanently fixed or subject to continuous regulation.

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Altered expression of Ly49 inhibitory receptors on NK cells from MHC class I deficient mice

Salcedo

Diehl

Olsson-Alheim

et al. 1997

Immunology Letters

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The Crystal Structure of H-2Dd MHC Class I Complexed with the HIV-1-Derived Peptide P18-I10 at 2.4 Å Resolution

et al. 1998

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The structure of H-2Dd complexed with the HIV-derived peptide P18-I10 (RGPGRAFVTI) has been determined by X-ray crystallography at 2.4 A resolution. This MHC class I molecule has an unusual binding motif with four anchor residues in the peptide (G2, P3, R/K/H5, and I/L/F9 or 10). The cleft architecture of H-2Dd includes a deep narrow passage accomodating the N-terminal part of the peptide, explaining the obligatory G2P3 anchor motif. Toward the C-terminal half of the peptide, p5R to p8V form a type I' reverse turn; residues p6A to p9T, and in particular p7F, are readily exposed. The structure is discussed in relation to functional data available for T cell and natural killer cell recognition of the H-2Dd molecule.

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Visualization of inhibitory Ly49 receptor specificity with soluble major histocompatibility complex class I tetramers

et al. 2000

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T Cell Tolerance Based on Avidity Thresholds Rather Than Complete Deletion Allows Maintenance of Maximal Repertoire Diversity

Sandberg

Franksson

Sundbäck

et al. 2000

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Given the flexible nature of TCR specificity, deletion or permanent disabling of all T cells with the capacity to recognize self peptides would severely limit the diversity of the repertoire and the capacity to recognize foreign Ags. To address this, we have investigated the patterns of CD8+ CTL reactivity to a naturally H-2Kb-presented self peptide derived from the elongation factor 1α (EF1α). EF1α occurs as two differentially expressed isoforms differing at one position of the relevant peptide. Low avidity CTLs could be raised against both variants of the EF1α peptide. These CTLs required 100-fold more peptide-H-2Kb complexes on the target cell compared with CTLs against a viral peptide, and did not recognize the naturally expressed levels of EF1α peptides. Thus, low avidity T cells specific for these self peptides escape tolerance by deletion, despite expression of both EF1α isoforms in dendritic cells known to mediate negative selection in the thymus. The low avidity in CTL recognition of these peptides correlated with low TCR affinity. However, self peptide-specific CTLs expressed elevated levels of CD8. Furthermore, CTLs generated against altered self peptide variants displayed intermediate avidity, indicating cross-reactivity in induction of tolerance. We interpret these data, together with results previously published by others, in an avidity pit model based on avidity thresholds for maintenance of both maximal diversity and optimal self tolerance in the CD8+ T cell repertoire.

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Jonas Sundbäck

Host MHC class I gene control of NK‐cell specificity in the mouse

Altered expression of Ly49 inhibitory receptors on NK cells from MHC class I deficient mice

The Crystal Structure of H-2Dd MHC Class I Complexed with the HIV-1-Derived Peptide P18-I10 at 2.4 Å Resolution

Visualization of inhibitory Ly49 receptor specificity with soluble major histocompatibility complex class I tetramers

T Cell Tolerance Based on Avidity Thresholds Rather Than Complete Deletion Allows Maintenance of Maximal Repertoire Diversity

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