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

We investigated the possible role of tumor necrosis factor-alpha (TNF-alpha) in the interleukin-2 (IL-2)-dependent generation of natural killer (NK) cells from bone marrow precursors. TNF-alpha synergistically augmented both cytotoxic activity against NK-sensitive targets and cell number at the end of the 7-day incubation period. After this time, NK activity was not induced by TNF-alpha in the absence of IL-2. The cytotoxic cells generated by IL-2 + TNF-alpha had the phenotype of mature NK cells, including expression of NK-1.1, asialo-GM1, Ly-5, LFA-1 and Thy-1. TNF-alpha was also able to up-regulate the mRNA expression for the IL-2 receptor alpha-chain (P55) as well as the mRNA expression of c-myc protooncogene. Blocking studies with monoclonal antibodies against the alpha-chain P55 of the IL-2 receptor confirmed the functional role ascribed to IL-2 in the in vitro generation of NK cells from bone marrow cultures. Additional proliferation studies demonstrated that the up-regulation of c-myc protooncogene was associated with an increased uptake of thymidine. These data indicate that the TNF-alpha-induced increase of IL-2-dependent NK cell generation from bone marrow precursors was associated with an augmented proliferation and an up-regulation of mRNA expression for IL-2 receptor and c-myc protooncogene.
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PMID:Effect of recombinant murine tumor necrosis factor on the generation of natural killer cells in bone marrow cultures. 149 22

A unique feature of both human T-cell leukemia virus type I (HTLV-I) carriers and subjects with HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP), a chronic inflammatory disease of the nervous system, is the presence of large numbers of activated T cells that spontaneously proliferate in vitro. We have investigated the mechanisms of T-cell activation by HTLV-I in freshly isolated blood T cells and in naturally infected T-cell clones obtained by direct single-cell cloning from patients with HAM/TSP. Both CD4+ and CD8+ HTLV-I-infected T-cell clones showed the unusual ability to proliferate in the absence of exogenous interleukin 2 (IL-2). Nevertheless, HTLV-I-infected clones were not transformed, as they required periodic restimulation with phytohemagglutinin and feeder cells for long-term growth. Irradiated or fixed HTLV-I-infected clones were found to induce the proliferation of blood T cells when cocultured, which we refer to as THTLV-1-T cell activation. This THTLV-1-T cell-mediated activation was blocked by monoclonal antibodies (mAbs) against CD2/lymphocyte function-associated molecule 3 (LFA-3), LFA-1/intercellular cell-adhesion molecule (ICAM), and the IL-2 receptor but not by mAbs against class I or class II major histocompatibility complex molecules, HTLV-I gp46, or a high-titer HAM/TSP serum. Spontaneous proliferation of blood T cells from HAM/TSP patients could also be inhibited by mAbs to CD2/LFA-3, LFA-1/ICAM and to the IL-2 receptor (CD25). These results show at the clonal level that HTLV-I infection induces T-cell activation and that such activated T cells can in turn stimulate noninfected T cells by cognate THTLV-1-T cell interactions involving the CD2 pathway.
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PMID:T-cell activation by autologous human T-cell leukemia virus type I-infected T-cell clones. 154 69

Regulation of the induction of suppressive activity in peripheral blood mononuclear cells (PBMC) by human major histocompatibility complex (MHC) class II+ CD4+ CD45R+ suppressor-inducer T-cell clones has been investigated. Previously, it was shown that in this system, cyclosporin A-sensitive precursors gave rise to allo-indifferent MHC-unrestricted CD4+ suppressive cells. Their induction could be blocked by monoclonal antibodies (mAb) to multilocus MHC class II gene products (TU 39) but not by mAb preferentially reacting with HLA-DR, -DQ or -DP molecules. This product, functionally defined, was termed 'DY'. It is shown here that induction of suppression by DY follows established activation pathways: (i) cell adhesion was required because CD11a (LFA-1) mAb blocked suppressor-induction; (ii) CD4 mAb also blocked, consistent with the involvement of class II products in suppressor-induction; (iii) cell proliferation was required because mAb to transferrin receptors, or irradiation, inhibited induction; and (iv) such proliferation appeared to be interleukin (IL)-2-dependent because it was blocked by mAb to IL-2 receptor, and enhanced by exogenous IL-2 but not IL-4. It was also enhanced by exogenous IL-1 and IL-6, but not by IL-3, tumour necrosis factor-alpha (TNF alpha) or interferon-gamma (IFN-gamma). It therefore seems that the requirements for activation of suppression by CD4+ DY+ T-cell clones in this in vitro model bear many similarities to those for CD4+ helper T cells, namely, mediation by MHC class II with CD4 involvement, dependency on LFA-1-influenced cell interactions, and reliance on clonal expansion caused by IL-2 and possibly amplified by IL-1 and/or IL-6.
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PMID:CD4+ CD45R- suppressor-inducer T-cell clones: requirements for cellular interaction, proliferation and lymphokines for the induction of suppression in peripheral blood mononuclear cells. 169 2

We have analyzed activation of resting human T cells by anti-T cell receptor (TCR) monoclonal antibody (mAb) BMA031, a murine mAb of the G2b isotype. Human peripheral blood lymphocytes (PBL) respond to anti-TCR mAb by short-term proliferation in vitro and by acquisition of responsiveness to interleukin 2 (rIL-2) in the absence of detectable IL-2 production. Cell depletion and limiting dilution experiments indicate that anti-TCR mAb +/- rIL-2 stimulation covers a substantial portion of human T cells, including CD4+ and CD8+ cells. Enhancement by rIL-2 of anti-TCR mAb-induced proliferation is blocked by anti-IL-2 receptor (IL-2R, p55) mAb, while anti-TCR mAb-induced proliferation is not. In contrast, anti-TCR mAb-induced proliferation is blocked by anti-lymphocyte function antigen 1 (LFA-1, CD11a) mAb and is not demonstrable in PBL from two patients with severe congenital LFA-1 deficiency, not even in the presence of irradiated LFA-1+ PBL. We conclude that stimulation of resting human T cells by anti-TCR mAb BMA031 enables dissociation of distinct steps in T cell activation that specifically require participation of IL-2R (p55) and LFA-1 cell surface molecules in a mutually exclusive way.
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PMID:Stimulation of human T cells via anti-T cell receptor monoclonal antibody BMA031: distinct cellular events involving interleukin-2 receptor and lymphocyte function antigen 1. 191 34

Very Little is known about the immunological attributes of human endothelial cells. In this study, we performed immunologic phenotypic analysis of cultured human dermal microvascular endothelial cells in comparison with human umbilical vein endothelial cells and examined the ability of various biologic response modifiers to alter the phenotypes. Using FACS analysis, both types of the cells appear to lack many of the cell surface markers of immunologically proficient cells, E.G. OKT4, OKT8, Leu7, FcIgG receptor, complement receptors, IL-2 receptor and HLA-Dr, but they possess beta 2-microglobulin and DAF. HLA-Dr antigens can be induced on both types of endothelial cells by gamma-IFN in a dose and time dependent manner. Both types of endothelial cells possess several kinds of Cell Adhesion Molecules (CAMs), such as ICAM-1, CD44, LFA-3, but not LFA-1 or CD2. ICAM-1 but not LFA-3 or CD44 can be upregulated by exposure of both types of endothelial cells to gamma-IFN, IL-1 and TNF. These data suggest that endothelial cells of the dermal microvasculature may play central roles in a variety of different cutaneous inflammation.
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PMID:[Immunophenotypic analysis of human endothelial cells]. 197 95

The majority of CLLs are of B lineage derivation with about 5 per cent of cases of T lineage. Although morphologically resembling the small peripheral blood B cell, by virtue of the expression of B cell restricted and associated cell surface antigens, B-CLLs are not the neoplastic counterparts of normal resting B cells. Similar to the peripheral blood B cell, B-CLLs express CD19, CD20, CD21, CD24, CD40, CD44, CD45R, and sIgM/D. However, unlike peripheral blood B cells, B-CLLs generally do not express C3b complement receptor, LFA-1, or CD22. In addition, B-CLLs express the T cell associated antigen CD5, and a number of antigens induced on normal B cells following in vitro activation (B5, Blast-1, CD23). These findings support the hypothesis that B-CLLs are the neoplastic counterparts of one or more unique subpopulations of normal B cells. Normal CD5+ B cells, which phenotypically resemble B-CLL, are present in fetal lymphoid tissues and in small numbers in adults. Moreover, normal CD5+ B cells are present in increased numbers in patients with autoimmune diseases and a subset of normal in vitro activated B cells phenotypically resemble B-CLL. Similar studies into the state of differentiation of T-CLL cells suggest that although most cases resemble normal activated T helper cells, a significant number are the neoplastic counterparts of natural killer cells. Recent studies have examined the function of B and T cells in B-CLL. Although controversial, these studies suggest that the in vitro response to mitogens and cytokines of B-CLL cells is abnormal. T cell proliferation in B-CLL is depressed due to an inability to produce sufficient T cell growth factor (IL-2) as well as a poor response to exogenous IL-2 possibly from ineffective IL-2 receptor expression. Purified populations of T helper and T suppressor cells demonstrate insufficient support of Ig production by normal B cells as well as excess suppression, respectively. These studies have further supported the previous hypothesis that the depressed cellular and humoral immunity in CLL is multifactorial with both abnormal B and T cell function.
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PMID:Immunobiology of chronic lymphocytic leukemia. 218 99

This manuscript reviews recent studies on the characterization of functional surface antigens on human NK cells. A series of cloned NK cell lines has been utilized for examination of these structures. These clones provide a relatively large number of cells with a stable phenotype and consistent specific cytotoxicity, which reflect the diversity of uncultured NK cells in normal peripheral blood. Almost all clones express the T11 antigen, some have a mature T-cell phenotype (T3+, T11+), and only one (JT1) does not reveal any T-cell antigen at all (T3-, T11+). Using NK clones to generate monoclonal antibodies specific for NK-associated antigens, two structures have been identified, NKH1 and NKH2. NKH1 appears to be exclusively expressed on large granular lymphocytes (LGL) of peripheral blood and was found to be a pan-NK cell antigen. NKH2 is also expressed primarily by LGL, but NKH2-positive LGL do not display a high level of NK activity. Another surface structure that has been found to play an important role in NK cell function is the T11 antigen/E rosette receptor complex, which is expressed in 80% of peripheral blood NK cells. The T11 antigen complex has been described as possessing the T11(1), T11(2), and T11(3) antigens and is an important alternate pathway for antigen-independent T-cell activation. Using anti-T11(2) and anti-T11(3) monoclonal antibodies, IL-2 receptor expression could be induced on various NK clones if they expressed the correct T11 antigenic epitope. As anti-T11 2/3 antibodies had a direct proliferative effect on NK cells with mature T-cell phenotype (T3+), it is proposed that the production of IL-2 by NK clones is largely dependent on the T-cell phenotype of NK cells. All NK clones expressed IL-2 receptor at low density and therefore needed a ten fold higher concentration for maximal proliferation than T-cell clones. For some T-cell-like NK clones, the T3 antigen complex and a T-cell receptor-like structure, NKTa or NKTb, have been shown to define the target cell specificity. The activation antigen, TNKTAR, was characterized as the recognition structure on the target cell for these NK cells. For both T3- and T3+ NK clones, the LFA-1 antigen has been shown to play an important role in effector/target cell interaction. As previously described for CTL, the LFA-1 molecule is involved in NK cytotoxicity as a nonspecific adhesion-strengthening molecule at the effector cell level.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Functional surface structures on human natural killer cells. 241 57

The leukocyte-common antigen (L-CA) is a family of large molecular weight glycoproteins uniquely expressed on the surface of all nucleated cells of hematopoietic origin. The glycoprotein consists of a heavily glycosylated exterior domain, a single membrane spanning region, and a large cytoplasmic domain that contains tyrosine phosphatase activity. To investigate the function of this family, we generated T cell clones that lacked L-CA (L-CA-). The expression of the alpha beta T cell receptor, CD3, CD4, IL-2 receptor (p55), LFA-1, Thy-1, and Pgp-1 (CD44) was normal. The L-CA- T cell clones failed to proliferate in response to antigen or cross-linked CD3; however, they could still proliferate in response to IL-2. An L-CA+ revertant was obtained and the ability to proliferate in response to antigen and cross-linked CD3 was restored. These data indicate that L-CA is required for T cells to enter into cell cycle in response to antigen.
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PMID:Evidence that the leukocyte-common antigen is required for antigen-induced T lymphocyte proliferation. 255 Jan 43

Lymphocyte proliferation is associated with cell-cell aggregation. In order to assess the importance of cell-cell contact in T-cell proliferation we examined the effect of disruption of cellular aggregation by anti LFA-1(4) mAb on T-cell proliferation. Monocyte-dependent T-cell proliferation induced by anti-CD3 mAb, pairs of anti-CD2 mAbs, or PHA was inhibited by anti-LFA-1 mAb. Monocyte-independent proliferation of highly purified T cells to anti-CD3 mAb plus PMA or plus IL-2 and to PHA plus IL-2 was, surprisingly, also inhibited by anti-LFA-1 mAb. Anti-LFA-1 mAb caused the partial inhibition of both low-affinity and high-affinity IL-2 receptor and the complete inhibition of IL-2 synthesis. In contrast to the above, the proliferation of highly purified T cells to PMA plus ionomycin was not inhibited by anti-LFA-1 mAb. These results suggest that optimal activation of highly purified T cells via cell surface receptors requires LFA-1-dependent cell-to-cell contact between proliferating T cells as well as between T cells and accessory cells. Such contact appears to be crucial for initiating IL-2 production and for optimal action of IL-2 through its receptor.
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PMID:Proliferation of highly purified T cells in response to signaling via surface receptors requires cell-cell contact. 265 72

Phagocytic cells of the thymic reticulum (P-TR) have been previously described as being Ia-positive, Mac-1-positive accessory cells which pursue a close relationship with thymocytes. They form rosettes with thymocytes, and these rosettes are inhibited by antibody directed against the complement receptor type 3 CR3 (anti-Mac-1). P-TR induce the proliferation of syngeneic thymocytes. In the present paper, we show that thymocytes enriched in mature medullary type are induced to proliferate in coculture with syngeneic P-TR, while the cortical type does not. After 5 days of culture, 85% of the thymocytes are of helper L3T4+Lyt-2- phenotype. As previously shown by others for syngeneic reactions, antibodies directed against related class II antigens (anti-I-A and anti-I-E) block this helper-T-cell syngeneic proliferation. A new finding is the blockage of helper-T-cell proliferation by anti-Mac-1 as well as with anti-LFA-1 antibodies, showing that accessory molecules may be as important as specific recognition of class II antigen molecules in the control of thymocyte proliferation and hence in thymocyte selection. Mac-1, like LFA-1, belongs to a novel family of differentiation antigens involved in cell interactions. The blockage of cell recognition and interaction between P-TR and thymocytes by either anti-Ia or anti-Mac-1 during the early induction phase of the syngeneic response leads to its inhibition. We demonstrate that P-TR/thymocyte interaction stimulates the enhanced expression of IL-2 receptors on thymocytes, a step which is necessary for helper-T-cell proliferation. The mechanism of syngeneic proliferation inhibition by anti-Ia, anti-Mac-1, and LFA-1 antibodies may be the prevention of IL-2 receptor expression on thymocytes, and/or the inhibition of IL-2 secretion. Although this is an in vitro model, which may not totally reflect in situ situation, our results indicate that thymic accessory cells may participate in a positive selection process which leads to helper-T-cell proliferation.
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PMID:Control of helper-T-cell proliferation by recognition of Ia and Mac-1 antigens on phagocytic cells of the thymic reticulum. 296 83


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