Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P14784 (IL-2 receptor)
 3,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytolytic CD8(+) effector cells fall into two subpopulations based on cytokine secretion. Type 1 CD8(+) T cells (Tc1) secrete IFN-gamma, whereas type 2 CD8(+) T cells (Tc2) secrete IL-4 and IL-5. Both effector cell subpopulations display predominantly perforin-dependent cytolysis in vitro. Using an OVA-transfected B16 lung metastases model, we show that adoptively transferred OVA-specific Tc1 and Tc2 cells induce considerable suppression, but not cure, of pulmonary metastases. However, long-term tumor immunity prolonged survival times indefinitely and was evident by resistance to lethal tumor rechallenge. At early stages after therapy, protection by Tc2 and Tc1 effector cells were dependent in part on effector cell-derived IL-4, IL-5, and IFN-gamma, respectively. Whereas effector cell-derived perforin was not necessary. Over time the numbers of both donor cells diminished to low, yet still detectable, levels. Concomitantly, Tc1 and Tc2 effector cell therapies potentiated endogenous recipient-derived antitumor responses by inducing 1) local T cell-derived chemokines associated with type 1-like immune responses; 2) elevated levels of recipient-derived OVA tetramer-positive CD8 memory T cells that were CD44(high), CD122(+), and Ly6C(high) that predominantly produced IFN-gamma and TNF-alpha; and 3) heightened numbers of activated recipient-derived Th1 and Tc1 T cell subpopulations expressing CD25(+), CD69(+), and CD95(+) cell surface activation markers. Moreover, both Tc2 and Tc1 effector cell therapies were dependent in part on recipient-derived IFN-gamma and TNF-alpha for long-term survival and protection. Collectively, Tc1 and Tc2 effector cell immunotherapy mediate long-term tumor immunity by different mechanisms that subsequently potentiate endogenous recipient-derived type 1 antitumor responses.
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PMID:Tc1 and Tc2 effector cell therapy elicit long-term tumor immunity by contrasting mechanisms that result in complementary endogenous type 1 antitumor responses. 1473 13

Expression of the high-affinity IL-2 receptor (IL-2R) on the surface of activated T cells makes it an attractive target for selective inhibition of alloreactive T cells in organ transplantation. IL-2 binds to its receptor via the extracellular domain of the beta-chain. In this study we synthesized synthetic peptides that map to epitopes of this domain and tested their ability to inhibit the activation and proliferation of mitogen-stimulated peripheral-blood T cells. Solid-phase synthesis was applied to create three oligopeptides of primary structures corresponding to the epitopes M(107)-E(118), Y(178)-Q(199), and E(190)-Q(199) of the extracellular domain of the IL-2Rbeta-chain. A nonhomologous peptide served as control. Peripheral-blood mononuclear cells isolated from 16 healthy volunteers (median age 41 years, range 26 to 56 years) were cultured with various concentrations of peptides and the mitogen phytohemagglutinin (PHA). The inhibitory effect of the peptides on cell proliferation was evaluated by automated cell counting and colorimetric proliferation assays. Cell activation was assessed by immunophenotyping using antibodies directed toward CD4, CD25, or CD69. The amount of IL-2 in culture supernates was measured by enzyme-linked immunoassay. Cultures in the presence of the peptide M(107)-E(118) (500 nmol/L) inhibited PHA-induced T-cell proliferation by 38%, and IL-2 secretion by 57%. Immunophenotyping confirmed suppression of activated T cells. Peptides Y(178)-Q(199) and E(190)-Q(199) inhibited proliferation, but failed to significantly affect IL-2 secretion. The control peptide showed no effect on the activation parameters. Our data indicate that the M(107)-E(118) peptide has promise for organ transplantation therapy.
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PMID:Synthetic peptides mapping to epitopes of the extracellular domain of the interleukin-2 receptor beta-chain to inhibit T-cell activation. 1535 Apr 62

The number of T cells that have undergone proliferation after antigen stimulation in vivo must be controlled to prevent excessive accumulation of T cells, autoimmunity, and T cell neoplasia. We describe here that primary human adenotonsillar memory phenotype CD45R0(+) CD4(+) T cells, but not adenotonsillar naive-phenotype CD45RA(+) CD4(+) T cells, or peripheral blood naive or memory CD4(+) T cells, express high levels of activation-associated antigens CD38, CD69, CD71, and HLA-DR. These in vivo-activated CD45R0(+) CD4(+) T cells were susceptible to spontaneous and rapid apoptosis in vitro. Apoptosis could not be inhibited by the disruption of Fas-Fas ligand engagement or by the pan-caspase inhibitor ZVAD. Cross-linking of the T cell antigen receptor did not rescue cells from apoptosis. Apoptosis could be partially inhibited by the chemokine CXCL12/SDF-1, by IL-6, and by the IL-2 receptor common gamma chain-signaling cytokines IL-2, -7, and -15. Inhibitors of phosphatidylinositol 3-kinase accelerated apoptosis. We conclude that after in vivo activation of CD45R0(+) CD4(+) T cells, the cells experience a period of intrinsically elevated sensitivity to apoptosis and that multiple external signals control their survival.
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PMID:Human in vivo-activated CD45R0(+) CD4(+) T cells are susceptible to spontaneous apoptosis that can be inhibited by the chemokine CXCL12 and IL-2, -6, -7, and -15. 1536 93

Most memory phenotype (MP) CD44(hi) CD8(+) cells are resting interleukin (IL)-15-dependent cells characterized by high expression of the IL-2/IL-15 receptor beta (CD122). However, some MP CD8(+) cells have a CD122(lo) phenotype and are IL-15 independent. Here, evidence is presented that the CD122(lo) subset of MP CD8(+) cells is controlled largely by major histocompatibility complex (MHC) class I molecules. Many of these cells display surface markers typical of recently activated T cells (CD62L(lo), CD69(hi), CD43(hi), and CD127(lo)) and show a high rate of background proliferation. Cells with this phenotype are highly enriched in common gamma chain-deficient mice and absent from MHC-I(-/-) mice. Unlike CD122(hi) CD8(+) cells, CD122(lo) MP CD8(+) cells survive poorly after transfer to MHC-I(-/-) hosts and cease to proliferate. Although distinctly different from typical antigen-specific memory cells, CD122(lo) MP CD8(+) cells closely resemble the antigen-dependent memory CD8(+) cells found in chronic viral infections.
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PMID:A major histocompatibility complex class I-dependent subset of memory phenotype CD8+ cells. 1681 71

We conducted a non-randomised controlled phase II trial to investigate the role of preoperative administration of interleukin-2 (IL-2) in patients with renal cell carcinoma undergoing tumour nephrectomy. A total of 120 consecutive patients were allocated alternately to the two study groups: perioperative immunomodulation with IL-2 (IL-2 group; n=60) and perioperative immunomonitoring without immunomodulation (control group; n=60). Patients from the IL-2 group received four doses of 10 x 10(6) IU m(-2) twice daily subcutaneously a week before operation followed by a daily maintenance dose of 3 x 10(6) IU m(-2) subcutaneously until a day before the operation. Parameters of cellular and humoral immunity (leucocytes, T-cell markers CD3, CD4, and CD8, B-cell marker CD19, monocyte marker CD14, natural killer (NK) cell markers CD16, CD56, and CD57, activation markers CD6, CD25, CD28, and CD69, progenitor cell marker CD34, as well as IL-2, IL-6, IL-10, soluble IL-2 receptor, IL-1 receptor antagonist, transforming growth factor-beta1, and vascular endothelial growth factor) were measured in peripheral venous blood at various intervals. Interleukin-2-related toxicity was WHO grade 1 (24%), 2 (67%), and 3 (9%). In the postoperative period, T-cell markers, activation markers, and NK cell markers decreased, and IL-6 and IL-10 increased. However, all these alterations were significantly less accentuated in patients who had been pretreated with IL-2. Median follow-up was 40 months. Tumour-specific survival in the IL-2 group and the control group was 98 vs 81% after 1 year and 86 vs 73% after 5 years (P=0.04). A similar effect was found for progression-free survival. We conclude that IL-2 can be safely administered in the perioperative period and modulates immunological parameters. However, to validate the survival data, a larger randomised phase III trial is needed.
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PMID:Perioperative immunomodulation with interleukin-2 in patients with renal cell carcinoma: results of a controlled phase II trial. 1703 3

B cells are in analogy with T cells capable of expressing functional IL-2 receptors. IL-2R alpha-chain (CD25) positive T cells have been studied in detail but not much is known about CD25 positive B cells. The aim of this study was to examine the phenotypic properties of the CD25 expressing B cells collected from different lymphoid organs in mice. Samples were stained for various cell surface markers and analysed using flow cytometry. We found that approximately 49% of B cells in bone marrow, 16% in peritoneal cavity, 2% in spleen and 1% in lymph nodes express CD25. In contrast, CD25 expressing B cells were not found in the blood or in Peyer's patches. Phenotypic characterization showed that CD25+ B cells in spleen, lymph nodes and peritoneal cavity have higher expression of AA4.1, CD5, CD69, CD80, CD86, CD122, CD132, IgA, IgG and IgM on their surface in comparison with CD25- B cells. In contrast, expression of IgD and IA-IE was lower on CD25+ B cells in spleen and lymph nodes. In bone marrow, the expression of CD5, CD80, CD86, CD122, CD132, IgA, IgD and IgM was lower, while the expression of AA4.1, IgG and IA-IE was increased on CD25+ B cells compared with CD25- B cells. In conclusion, our results indicate that B cells expressing CD25 are phenotypically distinctly different from those that are CD25 negative. Our findings suggest that CD25+ B cells are more prone to efficient antigen presentation and display a more mature phenotype.
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PMID:B-cell CD25 expression in murine primary and secondary lymphoid tissue. 1703 40

An important limitation in T cell studies of human autoimmune (type 1) diabetes is lack of direct access to cells infiltrating the pancreas. We hypothesized that cells recently released from the pancreas into the blood might express a characteristic combination of markers of activation. We therefore examined the recently activated circulating T cell population [CD3+, human leucocyte antigen D-related (HLA-DR+)] using cytokine production and 10 additional subset markers [CD69, CD25, CD122, CD30, CD44v6, CD57, CD71, CCR3 (CD193), CCR5 (CD195) or CXCR3 (CD183)], comparing newly diagnosed adult (ND) (age 18-40 years) patients (n=19) to patients with diabetes for >10 years [long-standing (LS), n=19] and HLA-matched controls (C, n=16). CD3+ DR+ cells were enriched by two-step immunomagnetic separation. No differences in basal or stimulated production of interleukin (IL)-4, IL-10, IL-13 or interferon (IFN)-gamma by CD3+ DR+ enriched cells were observed between the different groups of subjects. However, among the CD3+ DR+ population, significant expansions appeared to be present in the very small CD30+, CD69+ and CD122+ subpopulations. A confirmatory study was then performed using new subjects (ND=26, LS=15), three-colour flow cytometry, unseparated cells and three additional subset markers (CD38, CD134, CD4/CD25). This confirmed the expansion of the CD3+ DR+ CD30+ subpopulation in ND subjects. We conclude that a relative expansion in the T cell subpopulation with the activated phenotype CD3+ DR+ CD30+ is seen in the peripheral blood of subjects with newly diagnosed type 1 diabetes. This subpopulation represents less than 0 x 7% of circulating T cells and may provide a rich source of disease-specific T cells that can be isolated from blood.
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PMID:Activated T cell subsets in human type 1 diabetes: evidence for expansion of the DR+ CD30+ subpopulation in new-onset disease. 1730 96

Natural regulatory CD4(+) CD25(+) T cells play an important role in preventing autoimmunity by maintaining self-tolerance. They express CD25 constitutively and are produced in the thymus as a functionally mature T-cell population. Changes in the potential of these cells to regulate the activity of conventional effector lymphocytes may contribute to an increased susceptibility to infection, cancer and age-associated autoimmune diseases. In this study we demonstrated that the thymi of aged mice are populated by a higher percentage of CD4(+) CD25(+) thymocytes than in young animals. The expression of several surface markers (CD69, CD5, CD28, CTLA-4, CD122, FOXP3), usually used to characterize the phenotype of CD4(+) CD25(+) T regulatory cells, was compared between young and aged mice. We also examined the ability of sorted thymus-deriving regulatory T cells of young and aged BALB/c mice to inhibit the proliferation of lymph node lymphocytes activated in vitro. Natural regulatory T cells isolated from the thymi of young mice suppress the proliferation of responder lymph node cells. We demonstrated that thymus-deriving CD4(+) CD25(+) T cells of old mice maintain their potential to suppress the proliferation of activated responder lymphocytes of young mice. However, their potential to inhibit the proliferation of old responder T cells is abrogated. Differences in the occurrence and activity of CD4(+) CD25(+) thymocytes between young and old animals are discussed in relation to the expression of these surface markers.
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PMID:Age-related changes in the occurrence and characteristics of thymic CD4(+) CD25(+) T cells in mice. 1762 71

In order to clarify the effects of 17beta-estradiol (E2) on natural killer (NK) cells and the possibly regulatory mechanisms, we obtained highly purified and viable NK cells from C57BL/6J mouse spleen by a magnetic cell sorter (MACS). These cells were treated with E2 and then their cytotoxicity and proliferative capacity were examined. To further investigate the mechanisms on the effect of E2 on NK cells, expressions of activation-associated markers (CD69, CD122) and inhibitory receptors (CD94, Ly49), and intracellular cytokine production were analyzed. At last, we performed the cDNA microarray to explore the possible involved genes. We found that E2 could suppress NK cell cytotoxicity and proliferative capacity in vitro. E2 reduced NK cell cytotoxicity and proliferative capacity, which may be through influencing the phenotypes and cytokine expression of NK cells, mainly involving CD94 and IFN-gamma. Furthermore, regulation of Stat4, Fyn, Sh2d1a, Eat2, Cd244, Irf1, Runx1, Irf7, Irf5, Esrra and Nr5a1 genes may be related to the cytotoxicity, proliferation and cytokine production of E2-mediated purified NK cells.
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PMID:17beta-estradiol suppresses cytotoxicity and proliferative capacity of murine splenic NK1.1+ cells. 1895 59

The underlying mechanisms of tumor-induced immune suppression need to be fully understood. Regulatory T (Treg) cells have been shown to play an important role in tumor immune escape. Until now, many subsets of Treg cells have been described that can suppress T cell response via different mechanisms. CD69 is generally regarded as one of the activating markers; however, recent studies show that CD69 may exert regulatory function in the immune response. In this study, we have identified tumor-induced CD69(+)CD4(+)CD25(-) T cells as a new subset of CD4(+) Treg cells. CD69(+)CD4(+)CD25(-) T cells increase dramatically along tumor progression, with up to 40% of CD4(+) T cells in the advanced tumor-bearing mice. Distinct from the previously described CD4(+) Treg cell subsets, CD69(+)CD4(+)CD25(-) T cells express high CD122, but they do not express Foxp3 and secrete IL-10, TGF-beta1, IL-2, and IFN-gamma. CD69(+)CD4(+)CD25(-) T cells are hyporesponsive and can suppress CD4(+) T cell proliferation in a cell-cell contact manner. Interestingly, the fixed CD69(+)CD4(+)CD25(-) T cells still have suppressive activity, and neutralizing Abs against TGF-beta1 can block their suppressive activity. We found that CD69(+)CD4(+)CD25(-) T cells express membrane-bound TGF-beta1, which mediates suppression of T cell proliferation. Furthermore, engagement of CD69 maintains high expression of membrane-bound TGF-beta1 on CD69(+)CD4(+)CD25(-) T cells via ERK activation. Our results demonstrate that CD69(+)CD4(+)CD25(-) T cells act as a new subset of regulatory CD4(+) T cells, with distinct characteristics of negative expression of Foxp3, no secretion of IL-10, but high expression of CD122 and membrane-bound TGF-beta1. Our data contribute to the better understanding of mechanisms for tumor immune escape.
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PMID:CD69+ CD4+ CD25- T cells, a new subset of regulatory T cells, suppress T cell proliferation through membrane-bound TGF-beta 1. 1910 41


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