Cytotoxic T cell

About: Cytotoxic T cell is a research topic. Over the lifetime, 92492 publications have been published within this topic receiving 4768477 citations. The topic is also known as: killer T cell & cytotoxic T lymphocyte.

Visualizing regulatory T cell control of autoimmune responses in nonobese diabetic mice

Abstract: The in vivo mechanism of regulatory T cell (Treg cell) function in controlling autoimmunity remains controversial. Here we have used two-photon laser-scanning microscopy to analyze lymph node priming of diabetogenic T cells and to delineate the mechanisms of Treg cell control of autoimmunity in vivo. Islet antigen–specific CD4+CD25− T helper cells (TH cells) and Treg cells swarmed and arrested in the presence of autoantigens. These TH cell activities were progressively inhibited in the presence of increasing numbers of Treg cells. There were no detectable stable associations between Treg and TH cells during active suppression. In contrast, Treg cells directly interacted with dendritic cells bearing islet antigen. Such persistent Treg cell–dendritic cell contacts preceded the inhibition of TH cell activation by dendritic cells, supporting the idea that dendritic cells are central to Treg cell function in vivo.

Subpopulations of human natural killer cells defined by expression of the Leu-7 (HNK-1) and Leu-11 (NK-15) antigens.

Abstract: The functional and phenotypic characteristics of cells in human peripheral blood that mediate "natural killer" (NK) cytolysis have been examined with the use of multiparameter flow cytometry analysis and cell sorting. Essentially, all lymphocytes expressing NK and ADCC activity reacted with the anti-Leu-11a monoclonal antibody. The Leu-11a antigen was expressed on cytotoxic large granular lymphocytes (LGL), neutrophils, and basophils, but was not present on B cells, mitogen-activated T lymphoblasts, or Leu-1+ and Leu 4+ resting T cells. Anti-Leu-11a antibody selectively inhibited the binding of FITC heat-aggregated IgG complexes to granulocytes and LGL, and it may recognize a type of Fc receptor on these cells. Two-color FACS cell sorting indicated the existence of four lymphocyte subsets defined by the expression of Leu-11a and Leu-7 antigens. The Leu-11a+, -7- cells were highly active in 4-hr NK assays with the use of 51Cr-labeled K562 as the target. In contrast, the Leu-11a-, -7+ cells demonstrated weak activity and the Leu-11a-, -7- cells demonstrated no activity. The function of the Leu 11a+, -7+ cells varied considerably among several individuals examined. Multiparameter analysis with the use of two-color flow cytometry was used to determine the relationship between the expression of these NK-associated antigens and T and B cell-associated markers. These data indicate that considerable heterogeneity exists within human peripheral lymphocytes with regard to cell phenotype and function, but that several defined cellular subsets can be clearly revealed by using multiparameter FACS analysis and sorting.

4-1BB costimulatory signals preferentially induce CD8+ T cell proliferation and lead to the amplification in vivo of cytotoxic T cell responses.

Abstract: The 4-1BB receptor is an inducible type I membrane protein and member of the tumor necrosis factor receptor (TNFR) superfamily that is rapidly expressed on the surface of CD4+ and CD8+ T cells after antigen- or mitogen-induced activation. Cross-linking of 4-1BB and the T cell receptor (TCR) on activated T cells has been shown to deliver a costimulatory signal to T cells. Here, we expand upon previously published studies by demonstrating that CD8+ T cells when compared with CD4+ T cells are preferentially responsive to both early activation events and proliferative signals provided via the TCR and 4-1BB. In comparison, CD28-mediated costimulatory signals appear to function in a reciprocal manner to those induced through 4-1BB costimulation. In vivo examination of the effects of anti-4-1BB monoclonal antibodies (mAbs) on antigen-induced T cell activation have shown that the administration of epitope-specific anti-4-1BB mAbs amplified the generation of H-2d–specific cytotoxic T cells in a murine model of acute graft versus host disease (GVHD) and enhanced the rapidity of cardiac allograft or skin transplant rejection in mice. Cytokine analysis of in vitro activated CD4+ and CD8+ T cells revealed that anti-4-1BB costimulation markedly enhanced interferon-γ production by CD8+ T cells and that anti-4-1BB mediated proliferation of CD8+ T cells appears to be IL-2 independent. The results of these studies suggest that regulatory signals delivered by the 4-1BB receptor play an important role in the regulation of cytotoxic T cells in cellular immune responses to antigen.

Adoptive transfer of effector CD8+ T cells derived from central memory cells establishes persistent T cell memory in primates.

Abstract: The adoptive transfer of antigen-specific T cells that have been expanded ex vivo is being actively pursued to treat infections and malignancy in humans. The T cell populations that are available for adoptive immunotherapy include both effector memory and central memory cells, and these differ in phenotype, function, and homing. The efficacy of adoptive immunotherapy requires that transferred T cells persist in vivo, but identifying T cells that can reproducibly survive in vivo after they have been numerically expanded by in vitro culture has proven difficult. Here we show that in macaques, antigen-specific CD8+ T cell clones derived from central memory T cells, but not effector memory T cells, persisted long-term in vivo, reacquired phenotypic and functional properties of memory T cells, and occupied memory T cell niches. These results demonstrate that clonally derived CD8+ T cells isolated from central memory T cells are distinct from those derived from effector memory T cells and retain an intrinsic capacity that enables them to survive after adoptive transfer and revert to the memory cell pool. These results could have significant implications for the selection of T cells to expand or to engineer for adoptive immunotherapy of human infections or malignancy.