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)

Granulomas around Schistosoma mansoni eggs are a principal cause of morbidity in mice infected with this helminth. In vivo treatment of infected mice with anti-IL-2 antibodies, with or without anti-IL-2 receptor antibodies, significantly diminished the size of circumoval granulomas in the liver and decreased hepatic fibrosis to half that in untreated mice. Antibody-treated animals also displayed a marked reduction in both peripheral blood and tissue eosinophilia while IgE levels were unchanged or increased. Spleen cell cytokine production in response to Ag or mitogen stimulation was selectively altered by in vivo anti-IL-2 administration. IL-5 responses were dramatically reduced, whereas IL-4, IL-2, and IFN-gamma responses were not consistently changed. These findings confirm previous observations, suggesting a role for IL-2 in egg-induced pathology but indicate that the primary function of this cytokine in schistosome-infected mice may be in the generation of Th2- rather than Th1-associated responses.
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PMID:Treatment with anti-IL-2 antibodies reduces hepatic pathology and eosinophilia in Schistosoma mansoni-infected mice while selectively inhibiting T cell IL-5 production. 153 55

Previous studies have shown that transfer of whole spleen cell populations obtained from primed donors or transfer of purified T cells enriched for suppressor activity (Ts) to recipient mice decreased the antibody response to pneumococcal polysaccharide type III (SSS-III) when the animals were simultaneously immunized with SSS-III. In the present studies, such suppression of the antibody response was transferred with 10- to 100-fold fewer primed spleen cells when the cells were treated in vitro with recombinant interleukin-2 (rIL-2) before transfer; spleen cells from naive mice or mice primed with an unrelated antigen (dextran) and then treated with rIL-2 did not cause suppression of the antibody response to SSS-III, thereby eliminating the possibility of nonspecific carryover effects induced by rIL-2. In vivo administration of rIL-2 at the time of immunization with an optimally immunogenic dose of SSS-III resulted in significant (P less than 0.05) suppression of the antibody response relative to that of control animals, suggesting that IL-2 augments the clonal expansion of Ts cells in vivo. Further, the ability of passively administered anti-IL-2 receptor antibody to inhibit generation of Ts cells in vivo is consistent with such a view. Spleen cells from primed animals treated with rIL-4, rIL-5, or gamma interferon--but not those from primed animals treated with rIL-6--likewise were able to transfer suppression of the antibody response with fewer cells than those required when primed cells not treated with lymphokines were used. Thus, these studies indicate that Ts cell activity is greatly influenced by lymphokines produced by helper T cells. The studies also suggest that these lymphokines are required during activation and/or clonal expansion of Ts cells.
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PMID:Antigen-specific suppressor T cells respond to recombinant interleukin-2 and other lymphokines. 182 62

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

From one colonic carcinoma chemically induced in the rat, 2 sublines of tumor cells have been cloned, one (PROb) inducing progressive tumors, the other (REGb) generating tumors that regress a few weeks after s.c. injection into syngeneic hosts. Our study was aimed at comparing cellular immunity between animals bearing PROb or REGb tumors. Spleen cells were first tested for in vitro proliferation in response to mitomycin-treated PROb or REGb cells. Only spleen cells from rats injected with REGb cells proliferated significantly when mixed with PROb or REGb cells. The proliferative response induced by REGb cells was considerably higher than the response to PROb cells. When spleen cells from rats bearing REGb tumors were cultured with a mixture of REGb and PROb cells at various PROb/REGb cell ratios, PROb cells significantly suppressed the strong proliferative response generated by the same number of REGb cells alone. REGb-immune spleen cells, after in vitro stimulation by PROb or REGb cells, were not cytotoxic for either cell variant. REGb-immune spleen cells did not differ in their content of T lymphocytes expressing CD4 or CD8 markers when they were stimulated by PROb or REGb cells in vitro, but REGb cells induced a larger number of activated lymphocytes expressing the IL-2 receptor. Our results indicate that, compared to REGb cells, PROb cells are poorer stimulators of proliferation of tumor-immune spleen cells, and that they are able to suppress the proliferative response induced by REGb cells.
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PMID:In vitro proliferative responses of spleen lymphocytes from rats bearing progressive or regressive tumors induced by cell variants of a syngeneic colon carcinoma. 291 5

Spleen cells from B10.A mice transfused with B10.D2 blood suppress the immune responses of normal B10.A to B10.D2 in coculture as early as 2 days posttransfusion. In addition, the ability of B10.A mice to respond in cell-mediated lymphocytotoxicity (CML) is significantly impaired as early as 2 days after B10.D2 transfusion. Experiments were performed to characterize the cells mediating the suppressive effect and to determine whether the inability of transfused mice to generate a cytotoxic response is due to an inhibition of IL-2 production. To characterize the suppressor cells, spleen cells from B10.A mice were assayed 2 or 16 days after B10.D2 transfusion for the ability to suppress mixed lymphocyte culture (MLC) and CML responses of normal B10.A mice in coculture. The putative suppressor cells were either passed over a Sephadex G-10 or nylon wool column, treated with anti-Thy antibody or left untreated before addition to the coculture. Untreated cells from transfused mice suppressed the CML response of normal B10.A both 2 and 16 days posttransfusion, while the effect on the MLC response was inconsistent. Passage of the cells over Sephadex G-10 or nylon wool before assaying abrogated the suppressive effect, while treatment with anti-Thy antibody had no effect. These results suggest that the suppressor cells appearing shortly after blood transfusion have the characteristics of macrophages and not T lymphocytes. To determine the effect of transfusion on IL-2 production, cells from transfused mice were assayed for their ability to produce IL-1 and IL-2 and for the formation of IL-2 receptors. In addition, the effect of exogenous IL-1 and IL-2 on restoring the CML response of transfused mice to normal was assayed. The production of IL-1 by transfused mice was normal, while the production of IL-2 was significantly suppressed both 2 and 16 days posttransfusion. Activated cells from normal and transfused mice showed equal ability to absorb IL-2, indicating that IL-2 receptor formation is normal after transfusion. The addition of exogenous IL-2, but not IL-1, to CML cultures containing cells from transfused mice as responders restored the response to normal. These results indicate that the inability of transfused mice to respond in CML is due, at least in part, to an inability to produce IL-2. This could be mediated by prostaglandins released by activated macrophages.
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PMID:Effect of blood transfusion on IL-2 production. 296

For successful allogenic pregnancy to occur, suppression of maternal defense responses toward the fetus are vital. Suppressor factors elaborated by decidual cells or immune cells may facilitate this suppression. In order for appropriate cellular responses to occur an intact signal transduction/second messenger system must be present. The calcium/phospholipid-dependent protein kinase, Pk-C, plays an important role in regulating immune responses, and may also be important in regulating uterine cell responses and implantation events. Pk-C activation is necessary for IL-2 synthesis and IL-2 receptor synthesis through activation of the proto-oncogenes c-jun and c-fos. These proto-oncogene gene products combine to form the heterodimer AP-1 which then activates IL-2 gene transcription for both peptide and receptor. If Pk-C activity becomes abrogated then appropriate cell responsiveness is diminished. We have shown that Pk-C activity is decreased in the particulate fraction of 4-7 day pregnant spleen, thymus and draining lymph node (DLN) cells. Spleen cells did not exhibit any change in cytosolic Pk-C activity, the thymus was found to have a decrease in both cytosol and particulate fractions, and the DLN cells exhibited a translocation effect whereby particulate Pk-C decreased and cytosolic Pk-C activity increased. Supernatant from 3-day cultures of DLN cells from pregnant animals was shown to inhibit proliferation of spleen cells. In addition, the supernatant was able to directly lower Pk-C activity. We hypothesize that DLN cells secrete a factor(s) that is able to suppress immune response through abrogation of Pk-C activity, thereby decreasing AP-1 formation resulting in decreased IL-2 synthesis and IL-2 receptor synthesis.
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PMID:Pregnancy-associated, lymphocyte-derived suppressor factor inhibits protein kinase C activity. 822 96

We have studied the expression of IFN-gamma, IL-2 and IL-2 receptor (IL-2R) at the mRNA and protein levels in spleen and lymph node cells from Trypanosoma cruzi-infected BALB/c mice. At 21 days post infection (dpi) (peak of parasitaemia), spleen cells stimulated with Con A for 16 h showed a reduced IFN-gamma, IL-2 and IL-2R mRNA production compared with non-infected controls. Lymph node cells obtained at 4, 21 or 60 dpi produced similar amounts of IFN-gamma, IL-2 or IL-2R transcripts after mitogen stimulation as uninfected controls. Spleen cells obtained at 21 dpi showed a lower Con A proliferative response and IL-2R expression compared with non-infected controls, while the proliferation and IL-2R expression of lymph node cells at 21 dpi was unaltered. Supernatants from 48 h Con A-stimulated spleen and lymph node cells from mice at 21 dpi had very low levels of IL-2 but contained significantly higher levels of IFN-gamma compared with the supernatants of cells from non-infected mice. The latter phenomenon correlates with an accelerated rate of IFN-gamma mRNA accumulation.
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PMID:Organ-specific regulation of interferon-gamma, interleukin-2 and interleukin-2 receptor during murine infection with Trypanosoma cruzi. 848 2

Analysis of cytokine (receptor) mRNA levels has been suggested to be a sensitive technique for predicting the immunomodulatory potential of drugs and chemicals. Furthermore, this type of analysis is thought to be important in unraveling mechanisms of immunotoxicity. To study these issues, male Wistar rats were exposed to the immunotoxic environmental contaminants bis(tri-n-butyltin) oxide (TBTO; 5, 20, or 80 mg/kg diet for 6 weeks), hexachlorobenzene (HCB; 50, 150, or 450 mg/kg diet for 6 weeks), or benzo(a)pyrene (B(a)P; 3, 10, 30, or 90 mg/kg body wt for 5 weeks by a daily (5 times a week) oral intubation). Spleen cells were cultured with Con A and analyzed by dot blot hybridization for IL-2, IFN-gamma, IL-2 receptor alpha-chain (IL-2R alpha; CD25), and IL-4 mRNA levels. In addition, spleen and thymus sections of TBTO-exposed animals were assayed immunohistochemically for CD25 expression. Exposure to TBTO resulted in a dose-dependent decrease in IL-2R alpha mRNA levels from 5 mg/kg, a dose-dependent increase in IFN-gamma mRNA levels from 20 mg/kg, and increased IL-2 mRNA levels at 80 mg/kg diet. Exposure to HCB resulted in a dose-dependent increase in IL-2 and IFN-gamma mRNA levels from 150 mg/kg and increased IL-2R gamma mRNA levels at 450 mg/kg diet. Exposure to B(a)P resulted in a dose-dependent increase in IL-2 and IFN-gamma mRNA levels from 10 mg/kg and increased IL-2R alpha mRNA levels at 90 mg/kg body wt. No effects were seen on IL-4 mRNA levels. Spleen and thymus sections of TBTO-exposed animals showed reduced CD25 expression from 5 mg/kg diet. These results show that (1) the correlation between altered cytokine (receptor) mRNA levels and functional endpoints is variable, depending on the type of functional endpoint tested and the compound studied, (2) these assays are among the most sensitive ones for TBTO and HCB immunotoxicity, and among the more sensitive ones for B(a)P immunotoxicity, and (3) for TBTO, these assays provide a possible clue to a mechanism for thymus atrophy, resulting from exposure to this compound: reduced IL-2R expression may impede thymocyte maturation, resulting in thymus atrophy.
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PMID:Effects of in vivo exposure to bis(tri-n-butyltin)oxide, hexachlorobenzene, and benzo(a)pyrene on cytokine (receptor) mRNA levels in cultured rat splenocytes and on IL-2 receptor protein levels. 946 72

Mice spleen cells were incubated in vitro for 24 h with Pisum sativum agglutinin (PSA). The addition of these supernatants (SN) to macrophage cultures induced the production of nitric oxide (NO) by these cells in a dose-dependent manner. NO release was blocked in the presence of IFN gamma antibodies and partially inhibited by TNF alpha antibodies. The ability of PSA in inducing the production of IFN gamma and TNF alpha by spleen lymphocytes was confirmed assaying these cytokine levels in the SN. Spleen cells stimulated in vitro with PSA were highly activated showing an increased expression of the earlier activation marker, CD69, and a great proliferative response. On the other hand, spleen cells obtained from mice treated with PSA 24 h earlier, did not produce significant levels of IFN gamma or TNF alpha when incubated in vitro and showed a significantly lower proliferation rate when pulsed in vitro with PSA or Concanavalin A (ConA). The lower responsiveness to mitogens was also evident after 48 and 72 h after the treatment in vivo with the lectin. Nevertheless, the flow cytometric analysis of spleen lymphocytes obtained from PSA-treated animals showed a high degree of activation in cells CD3+. There was a decrease in the expression of L-selectin and VLA-4, when compared to controls, in parallel with a significant increase in the expression of CD69 and CD122 (IL-2R) in lymphocytes recovered from PSA-injected animals. The data point to evidence that PSA induces immunomodulatory effects, activating spleen lymphocytes in vivo, which become unresponsive to a second stimulation in vitro.
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PMID:Lymphocyte activation and cytokine production by Pisum sativum agglutinin (PSA) in vivo and in vitro. 1010 96

T cell development and function in complex ganglioside-lacking (GM2/GD2 synthase gene-disrupted) mice were analyzed. GM1, asialo-GM1, and GD1b were representative gangliosides expressed on T cells of the wild type mice and completely deleted on those of the mutant mice. The sizes and cell numbers of the mutant mice spleen and thymus were significantly reduced. Spleen cells from the mutant mice showed clearly reduced proliferation compared with the wild type when stimulated by interleukin 2 (IL-2) but not when treated with concanavalin A or anti-CD3 cross-linking. Expression levels of IL-2 receptor alpha, beta, and gamma were almost equivalent, and up-regulation of alpha chain after T cell activation was also similar between the mutant and wild type mice. Activation of JAK1, JAK3, and SAT5 after IL-2 treatment was reduced, and c-fos expression was delayed and reduced in the mutant spleen cells, suggesting that the IL-2 signal was attenuated in the mutant mice probably due to the modulation of IL-2 receptors by the lack of complex gangliosides.
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PMID:Attenuation of interleukin 2 signal in the spleen cells of complex ganglioside-lacking mice. 1031 76


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