49 research outputs found
Selective Expansion of Cross-Reactive Cd8+ Memory T Cells by Viral Variants
The role of memory T cells during the immune response against random antigenic variants has not been resolved. Here, we show by simultaneous staining with two tetrameric major histocompatibility complex (MHC)–peptide molecules, that the polyclonal CD8+ T cell response against a series of natural variants of the influenza A nucleoprotein epitope is completely dominated by infrequent cross-reactive T cells that expand from an original memory population. Based on both biochemical and functional criteria, these cross-reactive cytotoxic T cells productively recognize both the parental and the mutant epitope in vitro and in vivo. These results provide direct evidence that the repertoire of antigen-specific T cells used during an infection critically depends on prior antigen encounters, and indicate that polyclonal memory T cell populations can provide protection against a range of antigenic variants
Pre-TCR Signaling and Inactivation of p53 Induces Crucial Cell Survival Pathways in Pre-T Cells
AbstractSignaling through the pre-TCR is essential for early T cell development and is severely impaired in mice lacking the CD3γ chain of the pre-TCR. We here address the molecular mechanisms underlying this defect. Impaired pre-TCR signaling is shown to be associated with a profound increase in the number of apoptotic CD4−CD8− (DN) thymocytes. Introduction of p53 deficiency into CD3γ-deficient mice completely reverses the cell survival defect in CD3γ-deficient DN thymocytes and rescues the block in pre-T cell differentiation. In addition, the CD4+CD8+ (DP) compartment is expanded to its normal size. These findings suggest that the pre-TCR regulates progression through the DNA-damage checkpoint of the DN to DP transition by inactivating p53
Are the IL-2 Receptors Expressed in the Murine Fetal Thymus Functional?
It is well established that the majority of murine fetal thymocytes (day 15 of gestation)
express receptors for interleukin 2 (IL-2), but the functional significance of these IL-2 receptors
(IL-2Rs) is not clear. In situ hybridization data show a developmentally regulated
expression of IL-2 and IL-2R mRNA. IL-2 binding studies were performed on fetal thymocytes
and the results show the presence of both high (kD ≅ 20 pM) and low (kD ≅ 10 nM)
affinity IL-2Rs. These IL-2Rs are indeed functional: intact fetal thymic lobes (but not cell
suspensions) cultured in IL-2 exhibited an in vitro proliferative response at 20 pM of IL-2,
corresponding with the presence of a functional high-affinity IL-2R on fetal thymocytes. The
IL-2-dependent growth was primarily observed in the IL-2R + thymic subset, which contains
the CD3-/CD4-/CD8- precursor thymocytes. Furthermore, in vitro blocking of IL-2 in
intact fetal thymic lobes resulted in a reduction in the cell yield, which predominantly
affected the expansion of the immature CD3-/CD4-/CD8-thymocytes. Our findings
strongly support the concept that the IL-2/IL-2R pathway is responsible for the proliferation
of precursor cells within the fetal thymus
Contributions of the T Cell Receptor–associated CD3γ–ITAM to Thymocyte Selection
The immunoreceptor tyrosine-based activation motifs (ITAMs) in the CD3 chains associated with the T cell receptor (TCR) are crucial for TCR signaling. To probe the role of the CD3γ–ITAM in T cell development, we created knock-in mice in which the CD3γ chain of the TCR complex is replaced by a mutant signaling-deficient CD3γ chain, lacking the CD3γ–ITAM. This mutation results in considerable impairment in positive selection in the polyclonal TCR repertoire. When CD3γ–ΔITAM mice are crossed to mice expressing transgenic F5 TCRs, their thymocytes are completely unable to perform positive selection in vivo in response to intrathymic ligands. Also, the in vitro positive selection response of double-positive (DP) thymocytes with F5–CD3γ–ΔITAM mutant receptors to their agonist ligand and many of its variants is severely impaired or abrogated. Yet, the binding and dissociation constants of agonist ligands for the F5 receptor are not affected by the CD3γ–ΔITAM mutation. Furthermore, DP thymocytes with mutant receptors can respond to agonist ligand with normal antigen sensitivity and to normal levels, as shown by their ability to induce CD69 up-regulation, TCR down-regulation, negative selection, and ZAP70 and c-Jun NH2-terminal kinase activation. In sharp contrast, induction of extracellular signal-regulated kinase (ERK) activation and linker for activation of T cells (LAT) phosphorylation are severely impaired in these cells. Together, these findings underscore that intrinsic properties of the TCR–CD3 complex regulate selection at the DP checkpoint. More importantly, this analysis provides the first direct genetic evidence for a role of the CD3γ–ITAM in TCR-driven thymocyte selection