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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 report that sustained increase of intracellular calcium ion concentration and protein kinase C (PKC) activation maintained throughout the G1 phase of cell cycle do not provide sufficient signals to cause S-phase entry in rabbit B cells, and that additional signals transduced by IL-2 and IL-2 receptor interaction are essential for G1 to S transition. We have shown earlier that rabbit B cells can be activated to produce IL-2 and express functional IL-2 receptors after treatment with ionomycin and PMA. Herein we have compared the response of rabbit PBLs, which contain about 50% T cells, with those of purified B cells. After activation with ionomycin or PMA, comparable numbers of PBLs and B cells entered the cell cycle; but DNA synthesis by the PBL cultures was three to four times higher than that of cultures of purified B cells. Interestingly, IL-2 production by the PBL cultures was also three to four times higher than in B cell cultures, suggesting an involvement of IL-2 in inducing DNA synthesis in these cells. The hypothesis that IL-2, which is produced in early G1, acts in late G1 and is required for G1 to S transition in B cells was supported by the following observations: (i) IL-2 production by B cells was detected as early as 6 hr after activation and preceded DNA synthesis by at least 24 hr. (ii) B cell blasts in G1 (produced by treatment of resting B cells with ionomycin and PMA) showed DNA synthesis in response to IL-2, but showed very little DNA synthesis in response to restimulation with ionomycin and PMA. (iii) A polyclonal rabbit anti-human IL-2 antibody caused nearly complete inhibition of DNA synthesis by B cells activated by ionomycin and PMA. (iv) A PKC inhibitor, K252b, inhibited DNA synthesis in ionomycin and PMA-stimulated cells if added at the beginning of culture but was not inhibitory if added 16 hr later. We conclude that increased [Ca2+]i and PKC activation are not sufficient signals for G1 to S transition in B cells; entry into S is signaled by IL-2, and IL-2-mediated signal transduction probably does not involve increased [Ca2+]i or PKC activation.
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PMID:Molecular signals in B cell activation. II. IL-2-mediated signals are required in late G1 for transition to S phase after ionomycin and PMA treatment. 232 36

Interleukin-3 (IL-3) binds to its receptor with high and low affinities, induces tyrosine phosphorylation, and promotes the proliferation and differentiation of hematopoietic cells. A binding component of the IL-3 receptor was cloned. Fibroblasts transfected with the complementary DNA bound IL-3 with a low affinity [dissociation constant (Kd) of 17.9 +/- 3.6 nM]. No consensus sequence for a tyrosine kinase was present in the cytoplasmic domain. Thus, additional components are required for a functional high affinity IL-3 receptor. A sequence comparison of the IL-3 receptor with other cytokine receptors (erythropoietin, IL-4, IL-6, and the beta chain IL-2 receptor) revealed a common motif of a distinct receptor gene family.
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PMID:Cloning of an interleukin-3 receptor gene: a member of a distinct receptor gene family. 240 37

The activation of resting T cells to interleukin 2 (IL-2) production and DNA synthesis via Ti-CD3 is dependent on accessory cells (AC). Using positively selected, resting T cells activated with particle-bound anti-CD3, we investigated the ability of various cell lines to function as AC. We found that cell lines able to act as AC all expressed LFA-3, while cell lines not expressing LFA-3 were unable to provide AC signals. This applied to CD3+, CD4+, and CD8+ T cells. Sheep red blood cells (SRBC), which express LFA-3-like molecules, also had a weak, but significant AC function in this test system. Both CD4+ and CD8+ T cells activated with particle-bound anti-CD3 could be induced to enter DNA synthesis in the absence of AC when monoclonal antibodies reacting with CD2 were present instead of AC. IL-2 production could be detected in the latter cultures but not when positively selected CD3+ or CD2+ T cells were cultured alone. Our data suggest that activation of resting T cells via CD3 will lead to IL-2 receptor expression, while the interactions between LFA-3 and its ligand CD2 provide the necessary secondary signals for IL-2 production and induction of DNA synthesis.
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PMID:Accessory cell-dependent T-cell activation via Ti-CD3. Involvement of CD2-LFA-3 interactions. 246 80

ADP ribosylation in the presence of cholera or pertussis toxin indicated the presence of G-proteins in Nb2 cell membranes. Two protein bands, with mol wt of 43.5K and 46.5K, were radiolabeled by cholera toxin, while a single protein (41.5K mol wt) was ADP ribosylated by pertussis toxin. Northern hybridization of total RNA from Nb2 cells with specific cDNA probes indicated the presence of mRNA transcripts encoding Gs, Gi2, Go, and, to a lesser extent, Gi3. A characteristic of receptors coupled to G-proteins is that their binding properties are regulated by guanine nucleotides. The binding of [125I]human GH to the lactogen receptor as well as the binding of [125I]IL-2 to the IL-2 receptor were decreased in a dose-dependent manner by GTP, GDP, and the analog guanosine 5'-O-(3-thiotriphosphate). GMP, however, had no effect. The addition of pyruvate kinase and phosphoenolpyruvate to regenerate GTP from GDP greatly increased the apparent potency of GTP. Cholera toxin inhibited PRL- and interleukin-2-stimulated DNA synthesis and cell proliferation in the Nb2 cells. In contrast, pertussis toxin had a differential effect on PRL- and IL-2-stimulated cells. Pertussis toxin, at an optimal concentration of 0.01 ng/ml, significantly enhanced the stimulatory effects of PRL on DNA synthesis (P less than or equal to 0.01; n = 9) and cell proliferation (P less than or equal to 0.05; n = 9) compared with the effect of PRL alone. However, at higher concentrations the toxin inhibited PRL-stimulated DNA synthesis and cell proliferation. Complete inhibition was achieved with 1000 ng/ml toxin. In contrast to the biphasic effect on PRL-stimulated cells, pertussis toxin was only weakly inhibitory to cells treated with IL-2. At the highest concentration tested, pertussis toxin (1000 ng/ml) inhibited IL-2-stimulated DNA synthesis and cell growth by only 30-35%. (Bu)2cAMP (IC50 = 0.019 mM) or methylxanthine (MIX; IC50 = 0.25 mM) also inhibited PRL-stimulated DNA synthesis. In the absence of mitogen, neither agent, from 0.0001-1 mM, had any effect on DNA synthesis. Similarly, IL-2-stimulated DNA synthesis in Nb2 cells was inhibited by (Bu)2cAMP (IC50 = 0.019 mM) or MIX (IC50 = 0.072 mM). However, MIX was approximately 3 times as potent in inhibiting the cell response to IL-2 as that to PRL. The susceptibility of Nb2 cells to both bacterial toxins suggests a role for G-proteins in regulating PRL- or IL-2-stimulated mitogenesis in these cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:G-proteins modulate prolactin- and interleukin-2-stimulated mitogenesis in rat Nb2 lymphoma cells. 246 72

Anti-mu treated mice have been used extensively as a model for suppressed B-cell development [Murgita R. A., Mattioli C. A. and Tomasi T. B., Jr. (1973) J. exp. Med. 138, 209; Manning D. D. (1975) J. Reticuloendothel. Soc. 18, 63; Manning D. D. and Jutila J. W. (1972) J. Immun. 108, 282; Janeway C. A., Jr., Murgita R. A., Weinbaum F. I., Asofsky R. and Wigzell H. (1977) Proc. natn. Acad. Sci. U.S.A. 74, 4582; Hayglass K. T., Naides S. J., Benacerraf B. and Sy M.-S. (1985) J. Molec. Cell. Immun. 2, 107; Manning D. D. (1972) J. Immun. 109, 1152; Cooper M. D., Kearney J. F., Gathings W. E. and Lawton A. R. (1980) Immun. Rev. 52, 29; Burrows P. D., Kearney J. F., Lawton A. R. and Cooper M. D. (1978) J. Immun. 120, 1526]. However, little molecular evaluation has been performed on these animals to determine the level at which B-lineage cells are arrested. Experiments reported here were designed to determine the effects of anti-mu treatment of newborn mice on Ig-specific mRNA expression in lymphocyte populations. Newborn CBA/J mice received i.p. injections of goat anti-mu IgG or non-immune goat IgG, every 2 days, from birth until age 4 weeks. The degree of B-cell suppression in anti-mu treated mice was evident by low serum Ig levels and lack of surface Ig+ cells in splenic lymphocytes. Morphologically, spleens of B-cell depleted mice were slightly reduced or normal size, while the total area of Peyer's patches (PP) was three-fold less than control mice. Spleen cells from anti-mu suppressed mice contained high levels of mu-mRNA, but markedly reduced levels of mRNA specific for other Ig heavy-chain isotypes, as determined by DNA excess dot blot and Northern blot hybridizations. RNA specific for other sequences (actin or IL-2 receptor) was not affected and hybridization to parent plasmid (pACYC) was not detected. In addition, suppression of kappa- and lambda-mRNA accumulation was evident. This was surprising, since the target for anti-mu treatment appears to be a B-cell population expressing intact surface IgM, a stage in B-cell development in which both mu- and light-chain-specific mRNA accumulation should be detected. Our results suggest one of the following models: (1) anti-mu treatment deletes all Ig+ cells from the animal, so that only mu expressing pre-B-cells remain; or (2) anti-mu suppresses B-cell development by inhibiting kappa and lambda transcription, perhaps by some feedback mechanism in which the presence of surface Ig is required to maintain light-chain transcription.
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PMID:Anti-mu treatment suppresses immunoglobulin light-chain gene expression and Peyer's patch development. 249 38

Increased rates of protein phosphorylation, IL-2 receptor (IL-2R) expression, IL-2 production and DNA synthesis were quantified in rat lymphocytes oxidized by periodic acid (H5IO6). Enhanced phosphorylation of 97, 59 and 37 to 29 kDa proteins in lymphocytes was detected at 18 and 36 hrs post-oxidation, whereas IL-2R expression and IL-2 elaboration were at their maximum by 24 hrs. The number of oxidized cells entering the S-phase of the cell cycle and their thymidine incorporation rates reached their maximum at 72 hrs. These results indicate that H5IO6-induced blastogenesis elicits a progression of responses temporally similar to those of lymphocytes stimulated by lectins.
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PMID:Enhanced protein phosphorylation, IL-2 receptor expression, and IL-2 production precede cellular proliferation in lymphocytes oxidized by periodic acid. 253 77

A serum factor, believed to be an IgG autoantibody, in certain patients with lepromatous leprosy inhibits the proliferation of mitogen-stimulated lymphocytes. To investigate which stage of the cell cycle was inhibited, we examined the effect of these sera on the kinetics of lymphocyte activation induced by several mitogenic agents: phytohaemagglutinin (PHA), the calcium ionophore A23187, the phorbol ester phorbol myristate acetate (PMA) and purified protein derivative of BCG (PPD). Seven out of 54 sera tested were found to inhibit PHA-stimulated proliferation. Inhibitory sera and to a lesser extent serum IgG from leprosy patients were capable of suppressing the increase in free cytosolic calcium normally observed immediately after PHA stimulation. Subsequent stages of the cell cycle, increase in cell size, the expression of the IL-2 receptor and increase in DNA were also suppressed. The inhibitory sera was not toxic and, if addition of the sera was delayed, would not inhibit lymphocytes that had already entered the cell cycle. Using mitogenic agents which act intracellularly, the normal early increase in cell size with A23187- and PMA-stimulated lymphocytes was not affected by inhibitory leprosy sera or serum IgG, but all subsequent steps in the cell cycle were suppressed; although the inhibition of proliferation in PMA-stimulated cultures was incomplete. The mechanism of action of the inhibitory sera and derived IgG, although acting through a cell surface antigen, appears to interfere with a fundamental process in activation since the effect was seen with all of the diverse stimuli examined in this study.
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PMID:Suppress of the increase in free cytosolic calcium during the inhibition of T-cell activation by an autoantibody present in the serum of leprosy patients. 259 10

1,25-Dihydroxyvitamin-D3 (1,25-D3) is known to inhibit DNA synthesis, immunoglobulin and lymphokine production [interleukin-2 (IL-2), gamma interferon (G-IFN), and granulocyte-monocyte colony-stimulating factor (GM-CSF)] by mitogen-stimulated human peripheral blood mononuclear cells (PBMCs). Recent data suggest these inhibitory effects are mediated at the gene level through inhibition of mRNA accumulation of specific lymphokines in the activated cells. In previous studies, we have demonstrated the CD8+ T cell population was less sensitive to the anti-proliferative actions of 1,25-D3 than CD4+ T cells. The purpose of this investigation was to further assess ability of 1,25-D3 to regulate CD4+ and CD8+ T cell functions. Initial experiments showed that 1,25-D3 inhibited both IL-2 production and mRNA accumulation in mitogen-stimulated PBMC. However, IL-2 receptor (IL-2R) expression and mRNA accumulation in stimulated PBMC was not affected by 1,25-D3. Both FACS sorted CD4+ and CD8+ T cells expressed IL-2R equally upon stimulation and neither showed an inhibitory effect on this expression by 1,25-D3. Human CD4+ and CD8+ T cells showed a stimulus-specific production of IL-2. CD4+ cells stimulated with mitogen and HLA-DR positive accessory cells produced measurable levels of IL-2 that were completely inhibited by 1,25-D3. CD8+ T cells did not generate measurable amounts of IL-2 in this system. However, CD4+ and CD8+ T cells produced large amounts of IL-2 when stimulated with mitogen and a protein kinase C activator, phorbol myristate acetate (PMA). Under these circumstances, both CD4+ and CD8+ T cell IL-2 production was inhibited completely by 1,25-D3. These data suggest that IL-2R expression in PBMCs and T cell subsets is equal and unaffected by 1,25-D3 while IL-2 production in T cell subsets is stimulus-specific and completely inhibited by 1,25-D3.
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PMID:1,25-Dihydroxyvitamin-D3 regulation of interleukin-2 and interleukin-2 receptor levels and gene expression in human T cells. 259 16

The interleukin 2-diphtheria toxin-related fusion protein (IL-2-toxin) rapidly inhibits protein synthesis in IL-2 receptor (IL-2R)-bearing phytohemagglutinin-activated T cells but transiently stimulates DNA synthesis. At 7 hr after interaction with IL-2R+ phytohemagglutinin-activated T cells, IL-2-toxin-treated cells bear augmented steady-state levels of c-myc, interferon gamma, and IL-2R mRNA; these effects are indistinguishable from those produced by recombinant IL-2. Amplification of IL-2 sequences by the polymerase chain reaction reveals an increased level of IL-2 mRNA in cell cultures treated with recombinant IL-2, IL-2-toxin, and cycloheximide. These results suggest that IL-2-toxin can affect de novo IL-2 gene transcription/mRNA stabilization through independent mechanisms exerted by both the IL-2R binding domain and ADP-ribosyltransferase activity of the fusion protein. After 20 hr of culture, IL-2R mRNA was markedly decreased in both IL-2-toxin- and cycloheximide-treated phytohemagglutinin-activated T cells. Although interaction of IL-2-toxin with IL-2R+ T cells initially mimics the stimulatory effects of IL-2 upon c-myc, interferon gamma, IL-2R, and IL-2 gene expression, the consequences of inhibition of protein synthesis mediated by the ADP-ribosyltransferase activity of the toxin dominate after 7 hr and are indistinguishable from those effects mediated by cycloheximide.
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PMID:Sequential effects of interleukin 2-diphtheria toxin fusion protein on T-cell activation. 259 81

The current study analyses the ultramorphology, lymphocyte activation marker expression, DNA synthesis, and gamma-interferon and immunoglobulin production of inflammatory cells in oral lichen planus (OLP) lesions. According to these four different aspects of lymphocyte activation, only a minor fraction, 5% at the most, of all T cells in situ were activated. However, it is this minor fraction, and not the resting T cells without signs of activation, which may prove decisive for the outcome of the local immune-inflammatory process in OLP. We also studied both spontaneous and phytohaemagglutinin (PHA) stimulated peripheral blood T cell function. 3H-thymidine incorporation and gamma-interferon secretion were determined. Interleukin-2 (IL-2) receptor and major histocompatibility complex (MHC) locus II coded la antigen were stained with monoclonal antibodies. The peripheral blood T cell subsets and spontaneous MHC locus II antigen expression were similar in OLP patients and healthy controls, whereas spontaneous lymphocyte proliferation was lower in OLP patients (p less than 0.01). The PHA induced expression of IL-2 receptor and T cell proliferation were similar in both groups. Gamma-interferon secretion and MHC locus II antigen expression were low in OLP patients compared with the controls (p less than 0.01). The results suggest a defect in OLP T cell activation disclosed by in vitro PHA stimulation and occurring between IL-2 receptor ligand binding and gamma-interferon secretion. The findings of our peripheral blood mononuclear studies do not, however, provide an easy or straightforward explanation of the changes observed in the disease itself, particularly with respect to local pathogenesis.
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PMID:Lymphocyte activation in oral lichen planus. 266 69


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