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Target Concepts:
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Query: UNIPROT:P14784 (
IL-2 receptor
)
3,849
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The first Phase I Trial with a combination of IL-2 and IFN-alpha was published in 1989. There are still some questions though, concerning the in vivo effects of this combination on lymphocytes. We designed a prospective pilot study to evaluate in vivo effects of low dose IL-2 and IFN-alpha combination on expression of Bcl-2,
FAS
(Apo-1/CD 95), Fas Ligand,
IL-2 receptor
(CD25), and HLA-DR on peripheral lymphocytes in patients with advanced renal cell carcinoma. After initiation of the immunomodulating therapy, Bcl-2 expressing lymphocytes increased significantly on day 3 (p < 0.025), Fas (Apo-1/CD95) expressing lymphocyte increased significantly on day 5 (p < 0.003), Fas ligand expressing lymphocytes increased significantly on day 3 (p < 0.004), HLA-DR expressing lymphocytes increased significantly on day 5 (p < 0.003), and
IL-2 receptor
(CD25) expressing cells increased significantly on day 5 (p < 0.01). We conclude that immunomodulating therapy induces in vivo expression of Bcl-2, Fas (Apo-1) and Fas Ligand in lymphocytes significantly.
...
PMID:Immunomodulating therapy with rIL-2 and interferon alpha-induces in vivo expression of Bcl-2, Fas (APO-1/CD95), and Fas ligand on peripheral lymphocytes (a pilot study). 1062 45
After allogeneic stem cell transplantation, the establishment of the donor's immune system in an antigenically distinct recipient confers a therapeutic graft-versus-malignancy effect, but also causes graft-versus-host disease (GVHD) and protracted immune dysfunction. In the last decade, a molecular-level description of alloimmune interactions and the process of immune recovery leading to tolerance has emerged. Here, new developments in understanding alloresponses, genetic factors that modify them, and strategies to control immune reconstitution are described. In Section I, Dr. John Barrett and colleagues describe the cellular and molecular basis of the alloresponse and the mechanisms underlying the three major outcomes of engraftment, GVHD and the graft-versus-leukemia (GVL) effect. Increasing knowledge of leukemia-restricted antigens suggests ways to separate GVHD and GVL. Recent findings highlight a central role of hematopoietic-derived antigen-presenting cells in the initiation of GVHD and distinct properties of natural killer (NK) cell alloreactivity in engraftment and GVL that are of therapeutic importance. Finally, a detailed map of cellular immune recovery post-transplant is emerging which highlights the importance of post-thymic lymphocytes in determining outcome in the critical first few months following stem cell transplantation. Factors that modify immune reconstitution include immunosuppression, GVHD, the cytokine milieu and poorly-defined homeostatic mechanisms which encourage irregular T cell expansions driven by immunodominant T cell-antigen interactions. In Section II, Prof. Anne Dickinson and colleagues describe genetic polymorphisms outside the human leukocyte antigen (HLA) system that determine the nature of immune reconstitution after allogeneic stem cell transplantation (SCT) and thereby affect transplant outcomethrough GVHD, GVL, and transplant-related mortality. Polymorphisms in cytokine gene promotors and other less characterized genes affect the cytokine milieu of the recipient and the immune reactivity of the donor. Some cytokine gene polymorphisms are significantly associated with transplant outcome. Other non-HLA genes strongly affecting alloresponses code for minor histocompatibility antigens (mHA). Differences between donor and recipient mHA cause GVHD or GVL reactions or graft rejection. Both cytokine gene polymorphisms (CGP) and mHA differences resulting on donor-recipient incompatibilities can be jointly assessed in the skin explant assay as a functional way to select the most suitable donor or the best transplant approach for the recipient. In Section III, Dr. Nelson Chao describes non-pharmaceutical techniques to control immune reconstitution post-transplant. T cells stimulated by host alloantigens can be distinguished from resting T cells by the expression of a variety of activation markers (
IL-2 receptor
,
FAS
, CD69, CD71) and by an increased photosensitivity to rhodamine dyes. These differences form the basis for eliminating GVHD-reactive T cells in vitro while conserving GVL and anti-viral immunity. Other attempts to control immune reactions post-transplant include the insertion of suicide genes into the transplanted T cells for effective termination of GVHD reactions, the removal of CD62 ligand expressing cells, and the modulation of T cell reactivity by favoring Th2, Tc2 lymphocyte subset expansion. These technologies could eliminate GVHD while preserving T cell responses to leukemia and reactivating viruses.
...
PMID:New developments in allotransplant immunology. 1463 90
Daclizumab beta is a humanized monoclonal antibody that binds to CD25 and selectively inhibits high-affinity
IL-2 receptor
signaling. As a former treatment for relapsing forms of multiple sclerosis (RMS), daclizumab beta induces robust expansion of the CD56
bright
subpopulation of NK cells that is correlated with the drug's therapeutic effects. As NK cells represent a heterogeneous population of lymphocytes with a range of phenotypes and functions, the goal of this study was to better understand how daclizumab beta altered the NK cell repertoire to provide further insight into the possible mechanism(s) of action in RMS. We used mass cytometry to evaluate expression patterns of NK cell markers and provide a comprehensive assessment of the NK cell repertoire in individuals with RMS treated with daclizumab beta or placebo over the course of 1 year. Treatment with daclizumab beta significantly altered the NK cell repertoire compared to placebo treatment. As previously reported, daclizumab beta significantly increased expression of CD56 on total NK cells. Within the CD56
bright
NK cells, treatment was associated with multiple phenotypic changes, including increased expression of NKG2A and NKp44, and diminished expression of CD244, CD57, and NKp46. These alterations occurred broadly across the CD56
bright
population, and were not associated with a specific subset of CD56
bright
NK cells. While the changes were less dramatic, CD56
dim
NK cells responded distinctly to daclizumab beta treatment, with higher expression of CD2 and NKG2A, and lower expression of
FAS
-L, HLA-DR, NTB-A, NKp30, and Perforin. Together, these data indicate that the expanded CD56
bright
NK cells share features of both immature and mature NK cells. These findings show that daclizumab beta treatment is associated with unique changes in NK cells that may enhance their ability to kill autoreactive T cells or to exert immunomodulatory functions.
...
PMID:Characterization of the Impact of Daclizumab Beta on Circulating Natural Killer Cells by Mass Cytometry. 3239 Oct 16
