UNIPROT:P14784 - FACTA Search

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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 relationship between induction of nuclear proto-oncogenes and cellular proliferation is not fully understood. To better define this relationship, we have studied c-fos, c-myc, and c-myb mRNA induction in T lymphocytes where early and late activation events have been clearly delineated. In T cells, initial activation from G0 to G1 results from stimulation of either the antigen/major histocompatibility complex receptor (T3-Ti) or the T11 structure; further cycle progression and proliferation follow interaction of interleukin 2 (IL-2) with the IL-2 receptor. These events can be dissected with monoclonal antibodies to T3 or T11 which cause early activation but differ in their ability to initiate IL-2-dependent cycle progression and proliferation. In T lymphocytes triggered through either T3-Ti or T11, c-fos is induced with a nonmitogenic activation signal whereas c-myb is only induced with a mitogenic signal capable of triggering IL-2 and IL-2 receptor expression. Furthermore, c-myc induction is biphasic and associated with both early and late activation events. Early c-myc, like c-fos, is induced with a nonmitogenic signal. In contrast, induction of late c-myc, like that of c-myb, requires a mitogenic signal. Thus, appearance of c-fos and initial c-myc mRNA seem to be early responses to membrane signaling whereas late c-myc and c-myb are more directly associated with actual cellular proliferation. That nonmitogenic stimulation of T cells via T3-Ti not only abrogates T11-mediated proliferation but also eliminates late c-myc and c-myb transcription further supports this notion.
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PMID:Differential expression of nuclear proto-oncogenes in T cells triggered with mitogenic and nonmitogenic T3 and T11 activation signals. 282 Nov 8

Considerable evidence now exists to support the notion that the 50-kDa sheep erythrocyte binding protein, T11, represents an essential cell surface component of a human T-cell-lineage activation pathway. Furthermore, it is known that the human T-cell antigen-major histocompatibility complex (MHC) receptor complex T3-Ti is capable of regulating cell growth mediated by the T11 structure. Here we show that, within the T3+ thymocyte compartment, T3-Ti crosslinking rapidly inhibits T11-initiated interleukin 2 (IL-2) gene transcription and translation. This inhibition is restricted to the IL-2 gene (IL2) as transcription of both the IL-2 receptor gene (IL2R) and the Ti beta-chain gene (TCRB) are not affected (human gene designations are in parentheses). Perhaps more importantly, T3-Ti-mediated IL-2 inhibition of this type is not operational in peripheral T lymphocytes. The results imply that the majority of T3+ thymocytes are functionally distinct from peripheral T lymphocytes despite their T3+ phenotype and may possess a unique endogenous regulatory component for suppressing IL-2 gene activity. Moreover, since IL-2 is likely rate-limiting for growth within the thymus, the findings provide one plausible mechanism for thymic selection--namely, T3-Ti crosslinking of thymocytes upon interaction with self-major histocompatibility complex inhibits clonal expansion of high-affinity autoreactive cells.
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PMID:Selective inhibition of interleukin 2 gene function following thymocyte antigen/major histocompatibility complex receptor crosslinking: possible thymic selection mechanism. 282 97

Human T lymphocyte proliferation induced by neuraminidase-galactose oxidase (NAGO)-treated autologous erythrocytes (HENAGO) plus polyethylene glycol (PEG) has previously been shown to be independent of accessory cells. Here, we show that the response to HENAGO + PEG was accompanied by interleukin 2 (IL-2) release and was inhibited by anti-IL-2 and anti-IL-2 receptor antibodies. HENAGO alone initiated DNA synthesis together with phorbol ester (12-O-tetradecanoyl-phorbol-13-acetate; TPA). To elucidate the nature of the stimulatory signals NAGO-treated sheep erythrocytes (SENAGO) were used in additional experiments. In parallel to the superior rosetting capacity of SE compared to HE. SENAGO were by themselves stimulatory, and the response was further enhanced by PEG or TPA. Antibody L180/1, specific for the T11 (CD2) target structure (T11TS) on SE, homologous to the human CD2 ligand LFA-3, abolished the response to SENAGO alone or when combined with PEG or TPA. The results suggest that ENAGO induce T-cell response through CD2-LFA-3-T11TS interaction, and via other surface antigens bound by the oxidatively induced aldehyde groups on ENAGO.
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PMID:Activation of human T cells by neuraminidase-galactose oxidase-treated erythrocytes involving CD2 (T11) and its complementary structure. 289 54

CD2 (known also as T11 (ref. 1), LFA-2 (ref. 2) and the erythrocyte rosette receptor (ref. 3] is a functionally important T lymphocyte surface glycoprotein of relative molecular mass 50,000 to 58,000 (Mr 50-58 K) which appears early in thymocyte ontogeny and is present on all mature T cells. Monoclonal antibodies to CD2 inhibit cytotoxic T-lymphocyte (CTL)-mediated killing by binding to the T lymphocyte and blocking adhesion to the target cell. Such antibodies also inhibit T helper cell responses including antigen-stimulated proliferation, interleukin-2 (IL-2) secretion, and IL-2 receptor expression. Certain combinations of monoclonal antibodies to CD2 epitopes trigger proliferation of peripheral blood T lymphocytes, cytotoxic effector function and expression of IL-2 receptors by thymocytes, resulting in thymocyte proliferation in the presence of exogenous IL-2 (ref. 11). These findings suggest that CD2 can function in signalling as well as being an adhesion molecule. To understand the role of CD2 in T-cell adhesion and activation, it is essential to define its natural ligand. Our previous observation that purified CD2 inhibits rosetting of T lymphocytes with sheep erythrocytes and can be absorbed by sheep erythrocytes suggested it also might bind with detectable affinity to human cells. We now report that CD2 binds to a cell-surface antigen known as lymphocyte function-associated antigen-3 (LFA-3) with high affinity, and can mediate adhesion of lymphoid cells via interaction with LFA-3.
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PMID:The T lymphocyte glycoprotein CD2 binds the cell surface ligand LFA-3. 295 97

A female patient with an unusual lymphoproliferative disease associated with marked neutropenia has been observed for 36 months. The expanded cell population consists of large lymphocytes, many of which contain large azurophilic granules with acid phosphatase activity. These cells were T3, T8, T11 and Leu 11 positive but lacked the M1, T10, IL-2 receptor and HLA.DR antigens. The majority of these cells (60-70%) were also Leu 7 (HNK-1) positive. Strong natural killer (NK) activity was found in both the Leu 7 positive and negative cell populations. This cytotoxic activity was inhibited by monoclonal antibodies known to inhibit NK activity but was unaffected by antibodies which block T cell and T/NK cell cytotoxicity. Further functional analysis indicated that these cells suppressed normal T cell responses to mitogens, MLC responses and PWM induced B cell immunoglobulin synthesis. No effect on bone marrow progenitor cell growth was demonstrated. Antibody dependent cellular cytotoxic (ADCC) activity was barely detectable despite the presence of the Leu 11 antigen. Southern blot DNA analysis demonstrated clonal rearrangement of the T cell receptor beta gene thereby confirming that this variant of T gamma lymphoproliferative disease was a neoplastic condition.
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PMID:Functional analysis of a clonal expansion of Leu 11 positive NK active lymphoid cells. 295 59

We have investigated the requirements for CD2-induced proliferation of a CD4+, CD8-, CD3+, CD2+ antigen-specific, class II-restricted proliferating cloned cell line. A combination pair of two monoclonal antibodies (MoAb) recognizing, respectively, TII1 and D66 epitopes on the CD2 molecule was used as a stimulus. The regulatory function of accessory cells and various interleukins in this proliferation was determined. The results show that although this clone was able to proliferate in the absence of accessory cells (AC) or interleukin 1 (IL-1) when stimulated by these MoAb, AC constantly enhanced the response to these MoAb. AC acted by increasing high-affinity IL-2 receptor expression. On the contrary they did not play any role in IL-2 production. This regulation of IL-2 receptor expression by AC was specific of adherent cells, did not involve Fc receptors, was impaired when AC were metabolically inactivated and did not require T cell-AC interaction via LFA1, CD4, or HLA molecules. The AC function was not abrogated by anti-IL-1 antibodies and could not be replaced by exogenous IL-1. These results were compared to previously described AC effects on resting T-cell proliferation when stimulated with the same pair of anti-CD2 MoAb. Clear differences in activation requirements in resting and activated T cells via CD2 molecules were found.
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PMID:Regulation of helper T cell clone proliferation via the CD2 molecule. 295 40

We constructed a series of MAb heterodimers consisting of the J5 (anti-common acute lymphoblastic leukemia antigen [CALLA]) antibody and antibodies to a variety of structures present on the surface of activated human T cells, including CD3 antigen (T cell receptor-associated glycoproteins), CD2 antigen (T11/E-rosette receptor), CD25 antigen (IL-2 receptor), and the transferrin receptor. We tested the ability of these heterodimers to direct a CD2 + CD3 + CD8 + CD4 - CD25 + transferrin receptor + MHC-restricted human cytolytic T lymphocyte (CTL) clone to lyse a CALLA + human tumor in vitro. Only heterodimers containing an anti-CD3 antibody or activating antibodies to CD2 could direct the clone to lyse these human tumor targets, even when the clone was additionally activated with anti-CD3 or anti-CD2 antibodies. Our findings may have implications in the design of strategies for the use of such reagents in the treatment of human neoplasia.
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PMID:Requirements for the construction of antibody heterodimers for the direction of lysis of tumors by human T cells. 296 15

A recombinant amphotropic retrovirus was used to introduce the protein-coding region of the IL-2 receptor cDNA derived from HUT-102 cells into human CEM leukemic T-cells that lack these receptors. CEM T-cells that contained the virus expressed functional IL-2 receptors that transiently mediated five- to tenfold increases in [3H]thymidine incorporation following the addition of picomolar quantities of IL-2. Although IL-2 responsiveness was subsequently lost, it could be reinduced by cellular activation with the OKT11 monoclonal antibody. This phenotype also proved unstable with progressive time in culture. Despite the loss of IL-2 responsiveness, the infected CEM T-cells continued to express Tac antigen and displayed 50 to 200 high-affinity IL-2 receptors per cell that bound IL-2 with a dissociation constant of 4.3 pM. This affinity is fully equivalent to that detected on activated normal T-cells (2 to 50 pM). The apparent molecular size of the Tac antigen on these cells (55,000 to 60,000 daltons) was comparable to that on normal activated T-cells but 5000 daltons larger than the aberrant IL-2 receptors on HUT-102 cells. These data demonstrate that expression of a human IL-2 receptor cDNA in human T-cells results in high-affinity IL-2 receptor display that transiently imparts an IL-2 responsive state of growth. These results also raise the possibility that the T11 surface receptor may play an important regulatory role in high-affinity IL-2 receptor expression.
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PMID:Reconstitution of high affinity IL-2 receptor expression in a human T-cell line using a retroviral cDNA expression vector. 311 93

The present knowledge of the inflammatory reaction occurring in situ during hepatitis B favors a T cell-dependent MHC-restricted immune response. However, the reports in the literature are primarily based on the application of monoclonal antibodies directed at different lymphocyte subsets which discern only lymphocytic phenotypes and do not reflect the actual situation adequately. Therefore, we investigated the liver biopsies of patients with hepatitis B (28 patients) and non-A, non-B (21 patients) by immunoelectron microscopy with monoclonal antibodies directed at lymphocyte subtypes (pan-B, pan-T, T8, T4 and NKH1) and at activation epitopes (IL-2 receptor, TA1 and T11/3) as well, in order to determine the phenotype in association with the activation status of the lymphocytes that are in close contact with hepatocytes; thus, establishing an effector-target cell relationship on the ultrastructural level. We were able to confirm the central role of T8 lymphocytes being the predominant type of lymphocytes in close contact with liver cells in the space of Disse. A certain percentage of these cells expressed "activation" markers as IL-2 receptor, TA1 and T11/3. In acute hepatitis, the NK lymphocytes made up a fifth of all lymphocytes, whereas their number dropped below 10% in the chronic stage. There was a vague correlation between the inflammatory activity of the disease and the expression of HLA antigens (both classes I and II) on inflammatory cells and also on hepatocytes. The results did not show significant differences between hepatitis B and non-A, non-B.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunoelectron microscopic observations on the inflammatory infiltrates and HLA antigens in hepatitis B and non-A, non-B. 311 53

Phytohaemagglutinin (PHA)-stimulated peripheral blood lymphocytes were examined sequentially for changes in volume, the appearance of cell membrane receptors and nucleic acid synthesis. The kinetics of appearance of activation antigens were compared with the progress of the cell through the separate events of volume growth and nucleic acid syntheses, to determine points at which regulation of receptors may control further progress through the cell cycle. In all samples tested there was a consistent pattern of response in the proportion of cells progressing through the cell cycle. Most of the T cells increased in size (mean 82% at 24 hr), fewer cells entered the Gla/Glb phase with the onset of RNA synthesis (mean 68% at 48 hr) and even fewer entered DNA synthesis (mean 42% at 72 hr). The time-course of appearance and the number of cells expressing IL-2 receptors were almost identical with that of cells responding by RNA synthesis. A similar correlation was observed between expression of the transferrin receptor and DNA synthesis. Addition of anti-Tac antibody temporarily suppressed the onset of RNA synthesis and antibodies to the transferrin receptor suppressed DNA synthesis. These linkages are further evidence that IL-2 and transferrin are the specific signals for cellular RNA and DNA synthesis. With optimal concentrations of PHA, addition of IL-2 did not increase the proportion of cells bearing activation antigens or undergoing nucleic acid synthesis. Suboptimal concentrations of PHA produced a small reduction in the number of cells expressing the IL-2 receptor, but a much greater reduction in the rate of entry into RNA synthesis. There was a consistent increase in all activation parameters tested with the addition of IL-2, but the proportion of cells expressing the transferrin receptor and entering DNA synthesis was consistently lower than that of cells that expressed the IL-2 receptor or entered RNA synthesis. This suggests that regulation of the IL-2 receptor is not responsible for the reduction in the number of cells that proceed to proliferation. The CD2 antigen (T11(1] showed increasing expression in a step-wise fashion after activation, the increases coinciding with the onset of RNA and DNA syntheses.
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PMID:Changes in activation markers and cell membrane receptors on human peripheral blood T lymphocytes during cell cycle progression after PHA stimulation. 326 9

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