DrugBank:BIOD00082 - FACTA Search

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Query: DrugBank:BIOD00082 (IL-2)
29,198 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

IL-12 is a heterodimeric cytokine which has been shown to cause the proliferation of activated T and NK cells, to enhance the lytic activity of NK cells, and to induce IFN-gamma production by resting and activated T and NK cells. We previously reported that IL-12 could synergize with IL-2 to activate human LAK cells in the presence of hydrocortisone but that IL-12 alone was inactive. We herein show that in the absence of hydrocortisone, IL-12 by itself can activate human LAK cells. IL-12-induced LAK cell activity was mediated predominantly by CD56+ lymphocytes. Activation of LAK cells by IL-12 appeared to be independent of IL-2 since it was not inhibited by neutralizing anti-human IL-2. However, IL-12- and IL-2-induced LAK cell activation could be partially inhibited by anti-human TNF-alpha. Moreover, IL-12 produced in situ appeared to play a role in IL-2-induced LAK cell activation since rat monoclonal antibodies to human IL-12 could partially inhibit the generation of LAK cells in response to IL-2. In addition to its effects on LAK cell responses, IL-12 could facilitate specific allogeneic human CTL responses. However, IL-12-facilitated CTL responses were blocked by neutralizing anti-human IL-2 indicating a requirement for IL-2 produced in situ. The ability of IL-12 to facilitate both nonspecific LAK and specific CTL responses suggests that it may be useful as a therapeutic agent against some tumors and infectious diseases.
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PMID:Regulation of human cytolytic lymphocyte responses by interleukin-12. 135 83

Mechanisms of immune defence at the mucosal surface has been elucidated by recent advances in molecular and cellular immunology. IgA is undoubtedly the most important defense factor in the mucosal immune system. It has been shown that T cells are essential for the induction and regulation of IgA synthesis. In T cell regulation of IgA synthesis, various cytokines (e.g., TGF-beta, IL-2, IL-5, and IL-6) which are secreted by CD4+ T cells, play important roles for the induction and regulation of IgA isotype switching and terminal differentiation of sIgA+ B cells to become IgA producing cells. The chronic treatment of mice with anti-CD4 mAb induced a market deficiency of CD4+ T cells in both mucosal and systemic tissues. IgA plasma cells were significantly reduced in treated mice when compared with normal mice (greater than 80% reduction), while the numbers of sIgA+ B cells in IgA inductive sites (e.g., PP) remained normal. CD4+ Th cells are a critical element for the induction of appropriate IgA responses in mucosal associated tissues. Elucidation of the precise cellular and molecular network for the regulation of mucosal immune defense system is important and useful for the consideration of prevention of infectious diseases. In this regard, the effective and sophisticated mucosal administration of vaccines using the concept of the common mucosal immune system should induce effective immune responses which prevent the pathogen from entering the host through large surface areas of mucosal membranes. This goal cannot be achieved without a more complete understanding of regulatory T cells and cytokines for mucosal immune responses.
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PMID:Regulation of mucosal immune responses by T lymphocytes: the effect of chronic CD4+ T cell deficiency on IgA synthesis. 135 70

Parasitic infection is frequently accompanied by a downregulation in host cell-mediated immunity. Recent studies suggest that this modulation of helper T cells and effector cell function can at least in part be attributed to the action of a set of inhibitory cytokines produced by T lymphocytes as well as by a number of other cell types. The best characterized of these inhibitory lymphokines are IL-4, IL-10 and TGF-beta. Interestingly, both IL-4 and IL-10 are produced by the Th2 but not the Th1 subset of CD4+ helper cells. The former subset dominates in many situations of chronic or exacerbated parasitic infection and is thought to suppress Th1 function as a consequence of the cross-regulatory activity of these two cytokines. The latter hypothesis is supported by recent experiments demonstrating that mAb-mediated neutralization of IL-10 reverses suppressed IFN-gamma responses and/or disease susceptibility in mice with parasitic infections. In vivo neutralization of TGF-beta has also been reported to increase host resistance to parasite challenge. In addition to suppressing T-cell differentiation, function or proliferation, IL-4, IL-10 and TGF-beta each inhibit the ability of IFN-gamma to activate macrophages for killing of both intracellular and extracellular parasites. Moreover, the three cytokines are able to synergize with each other in downregulating these parasiticidal effects. Interestingly, each of the cytokines inhibits the production of reactive nitrogen oxides, an effector mechanism previously demonstrated to play a major role in parasite killing by activated macrophages. In the case of IL-10, this suppression of nitrogen oxide production appears to result from an inhibition of TNF-alpha synthesis leading to defective macrophage stimulation. While distant from parasites in their biology and phylogeny, some retroviruses also appear to induce an over-production in downregulatory cytokines which is closely associated with the onset of immunodeficiency. Thus, in an animal model involving infection of mice with LP-BM5 MuLV and in human HIV infection, Th2 (IL-10 and/or IL-4) cytokine synthesis is increased while Th1 (IFN-gamma and/or IL-2) cytokine production is suppressed. These observations suggest that cytokine-mediated cross-regulation may play a role in the pathogenesis of acquired immune deficiency disease, contributing both to the progression of retroviral infection and the increase in susceptibility to opportunistic infections and malignancy. Observations of similar cytokine cross-regulatory activities in organisms as diverse as helminths, protozoa and retroviruses predict that comparable mechanisms may operate in a wide variety of infectious diseases.
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PMID:Role of T-cell derived cytokines in the downregulation of immune responses in parasitic and retroviral infection. 135 51

Infection with the human immunodeficiency virus (HIV) ultimately results in profound immunodeficiency characterized by severe depletion of CD4+ T helper cells. In symptomatic infection a general perturbance of immune function is observed. Here recent insights in the sequence of events in progression to AIDS is reviewed. Following seroconversion a rapid persistent loss of inducible B cell function is observed. In addition, in long term infection, antigen-presenting cell functions of monocytes and dendritic cells are increasingly affected. T-cell non-responsiveness, preceding CD4 cell loss, appears to be induced through several different, sequential mechanisms. In early infection, the in-vivo deletion of memory cells can account for the in-vitro decreased responsiveness. Later on in infection, when the balance between memory and naive T cells is normalized, both CD4 and CD8 cells are non-responsive to nominal antigen and low dose anti-CD3 monoclonal antibodies. This anergy is at the level of IL-2 gene expression since early signal transduction events following CD2 and CD2 receptor occupancy are normal. This state of anergy, probably due to inappropriate activation in vivo, may be related to programmed cell death (PCD) observed in vitro for both CD8 and CD4 cells reflecting a systemic interference with maturation and differentiation of T cells. In progression to symptomatic infection, the proportion of non-responsive CD8 cells with immature or activated phenotypes increases and in about fifty percent of the cases, CD4 cell decline may accelerate in association with emergence of syncytium-inducing HIV variants. During this progressive stage, anti-CD3 reactivity is severely decreased, and alloantigen reactivity and finally the capacity to respond to phytohemagglutinin (PHA) are affected. These functional parameters appear useful for staging of HIV-infected individuals and for evaluation of anti-viral therapy.
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PMID:Immunological abnormalities in the natural history of HIV infection: mechanisms and clinical relevance. 135 68

Limiting dilution analysis was used to estimate the frequency of clonogenic Ag-specific CD4+ T lymphocytes in draining lymph nodes of mice over the course of infection with Leishmania major, and to measure the production of IL-2, IL-3, IL-4, IFN-gamma, and TNF by the resultant clones. Infection of both genetically susceptible BALB/c ("non-healer") and resistant C57BL/6 ("healer") mice resulted in at least a fourfold increase in the frequency (to about 0.3%) and at least a 10-fold increase in the total number of lymph node CD4+ cells that formed clones when cultured with L. major Ag in vitro. At 1 wk after infection, the majority of clones from BALB/c mice secreted IL-4 (precursor frequency 0.15%) and fewer secreted IFN-gamma (0.05%); this pattern remained constant for at least 8 wk after infection. In C57BL/6 mice, however, a high precursor frequency of IL-4-secreting clones was measured in the first 1 to 2 wk when the mice had lesions, but resolution of infection was associated with a decrease in the frequency of IL-4-secreting clones (from 0.13% at 2 wk to 0.03% at 4 wk) and an increase in the frequency of IFN-gamma-secreting clones (from 0.08% to 0.22%). At all stages of infection, most clones from either mouse strain secreted IL-3 and very few secreted TNF. Analysis of PCR-amplified cDNA from draining lymph nodes of infected mice also revealed that IL-4 and IFN-gamma mRNA were expressed in both mouse strains early in infection. IL-4 mRNA was the major species at 2 and 6 wk after infection in BALB/c mice, but declined relative to IFN-gamma mRNA over this time in C57BL/6 lymph nodes. Precursor frequency estimates of lymphokine-secreting CD4+ cells in draining lymph nodes therefore correlated with lymphokine expression patterns in vivo. Analysis of a panel of individual short term clones derived from mice 1 wk after infection revealed marked heterogeneity in lymphokine production patterns. In BALB/c mice, 49% secreted IL-4 without IFN-gamma, 18% secreted IFN-gamma without IL-4, and 14% secreted both IL-4 and IFN-gamma. Similarly in C57BL/6 mice, 39% secreted IL-4, 20% secreted IFN-gamma, and 17% secreted both lymphokines. Many of the clones also produced IL-3 and/or IL-2. Together the data suggest that both IL-4 and IFN-gamma are synthesized early in infection of susceptible and resistant mice as assessed by mRNA and precursor frequency analyses.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Changes in the precursor frequencies of IL-4 and IFN-gamma secreting CD4+ cells correlate with resolution of lesions in murine cutaneous leishmaniasis. 135 29

Infection with Trypanosoma cruzi is accompanied by a profound suppression of immune responses including the production of IL-2. Previous experiments have confirmed a correlated decrease in IL-2 mRNA levels in lymphoid cells from infected mice. To further define the molecular basis of this regulation, we have examined the production and degradation of mRNA for IL-2 and other T cell activation genes in cells from T. cruzi-infected mice. Spleen cells from C57BL/6J mice infected with the Brazil strain of T. cruzi were analyzed for the kinetic expression of IL-2, IL-2R alpha, c-myc, and c-fos genes in response to Con A and PMA costimulation. Cells from infected mice exhibited a selective reduction of c-myc and c-fos mRNA in association with the severe suppression of the IL-2 gene, but a less severe to comparable production of IL-2R alpha mRNA compared with normal spleen cells. The similar patterns of the suppression of c-myc and IL-2 mRNA suggest a common mechanism of down-regulation of these two genes in T. cruzi infection. Actinomycin D treatment was used to demonstrate that decreased steady state levels of IL-2, c-myc, and c-fos mRNA in cells from infected mice were not due to an increased rate of degradation of these mRNA. Cycloheximide treatment enhanced the expression of IL-2, IL-2R alpha, c-myc, and c-fos mRNA in spleen cells from both normal and infected mice. Although a larger percentage of induction was observed in cells from infected mice, the mRNA levels for IL-2, c-myc, and c-fos in cells from infected mice were still lower than those of normal cells. Spleen cells from infected mice precultured for 24 to 72 h before the addition of mitogens showed significant enhancement of IL-2 and c-myc gene expression; however, this recovery was inhibited if fixed T. cruzi was present in the preculture medium. These data suggest that the reduction of IL-2 mRNA in infected mice is not the result of an increased degradation of its mRNA but to down-regulation of transcription of the IL-2 gene in T cells from T. cruzi-infected mice. Preculture-induced recovery of IL-2 production appears to result from release from this regulation and full expression of the IL-2 gene.
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PMID:Selective suppressive effects of Trypanosoma cruzi infection on IL-2, c-myc, and c-fos gene expression. 151 73

Few areas of immunology have been so controversial as that of suppressor T cells. Studies of T cell clones derived from patients with infectious diseases, including leprosy, and allergies have allowed the delineation of functional human T cell subsets. Both CD4 and CD8 cells can be discriminated into subsets that are differentiated by their functions and patterns of lymphokines. Type 1 CD4 cells reactive with lepromin and PPD produce IFN-gamma and IL-2 predominantly, while Type 2 CD4 clones, specific for tetanus toxoid, produce IL-4 and IL-5. Type 1 CD8 cytotoxic T lymphocytes produce predominantly IFN-gamma and IL-2. T suppressor clones derived from immunologically unresponsive lepromatous leprosy patients are antigen-specific, CD8 cells, HLA-DQ restricted, and produce predominantly IL-4, and were designated Type 2 CD8 cells. Several models for peripheral tolerance based on distinct functional T cell subsets are discussed. Previous models of T cell suppression in the mouse and the reciprocal relationship between humoral and cell-mediated immunity in general are reinterpreted in light of such T cell subset interactions.
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PMID:Stigma variations: observations on suppressor T cells and leprosy. 153 41

Infection is a common and serious complication of severe head injury. Immunocompetence in 25 severely head injured patients was investigated by measuring: (1) delayed-type hypersensitivity (DTH) skin test responses to common antigens; (2) phytohaemagglutinin (PHA) stimulated peripheral blood lymphocyte (PBL): blastogenesis, phenotype expression, and lymphokine production; (3) lymphokine-activated killer (LAK) cytotoxicity, antibody dependent cellular cytotoxicity (ADCC) and natural killer (NK) cytotoxicity; and (4) immunoglobulin and complement levels. The incidence of anergy to DTH skin testing was 100%. There was a decrease in PHA stimulated: PBL blastogenesis (p = 0.002), T-cell expression (p = 0.018), helper T-cell expression (p less than 0.001), interleukin-2 receptor expression (p less than 0.001), interleukin-2 production (p = 0.035) and gamma-interferon production (p less than 0.001). LAK cytotoxicity was depressed following incubation with IL-2 (p less than 0.001). There was no significant decrease in immunoglobulin levels and all acute phase reactants tested increased. The results of this study indicate that the cellular arm of immune response, including lymphocyte activation and cytokine production, is suppressed following severe head injury. The lack of enhancement in LAK cytotoxicity following incubation of PBLs with interleukin-2 suggests that factors other than decreased interleukin-2 production, such as the inherent lymphocyte dysfunction, other soluble mediators or suppressor cells, may be responsible for the reduction in cellular immunity observed following severe head injury.
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PMID:Humoral and cellular immunity following severe head injury: review and current investigations. 168 38

Using a murine model, we investigated the role of the bacterial exotoxin listeriolysin O (LLO) in cellular immunity to Listeria monocytogenes. A correlation between LLO production by infecting bacteria and generation of protective immunity to virulent LLO-producing bacteria was noted. Using isogeneic hemolysin (Hly+ or Hly-) strains of L. monocytogenes, we demonstrated that LLO production by infecting bacteria is required to elicit T cells reactive both to bacteria-associated Ag and to the secreted LLO molecule as measured by IL-2 production in vitro. Distinct sets of T cells specific for largely nonoverlapping pools of antigenic determinants represented by LLO and cell-associated Ag (heat-killed L. monocytogenes) are generated after infection. We have used models for prediction of T cell epitopes based on primary structure of LLO, and synthetic amphipathic LLO peptides were evaluated as Ag in vitro or as immunogenes in vivo. Infection of several strains of mice (H-2k and H-2d) with LLO-producing L. monocytogenes resulted in the generation of T cells that could respond consistently to two peptides, LLO 215-234 and LLO 354-371. Mouse strains lacking expression of I-E molecules (e.g., B10.A(4R) and C57BL/6) responded to LLO but not to the peptides tested. With C3HeB/FeJ mice, antibodies to I-Ek blocked the presentation of LLO 215-234. The importance of the N-terminal portion of LLO 215-234 was evidenced by the drastic reduction in antigenic activity of truncated peptides (e.g., LLO 221-234 and LLO 224-234). LLO 215-234, the strongest and most consistent activator of T cells from L. monocytogenes-immune mice, fit well some models for antigenic peptides in several ways. It could be predicted to form an amphipathic alpha-helix, it contained multiple "Rothbard motifs" (charged residue or glycine, two or three hydrophobic amino acids and then a glycine or polar residue), it had a net charge of +2, and it contained the correct spacing of amino acids (five to six residues between a hydrophobic and basic amino acid) that is characteristic of I-Ek-binding peptides. Immunization with 8 of 10 synthetic LLO peptides generated T cells that recognized the immunizing peptide in vitro, but such T cells were only poorly reactive with LLO. Our results indicate that LLO is an important target Ag for stimulation of CD4+ L. monocytogenes-specific T cells, and that LLO 215-234 is antigenically dominant in C3HeB/FeJ mice.
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PMID:Role of listeriolysin-O (LLO) in the T lymphocyte response to infection with Listeria monocytogenes. Identification of T cell epitopes of LLO. 170 97

Infection of Human organism by Human Immunodeficiency viruses induces, after a shorter or a longer period, a complex immune Deficiency (ID) that has been named Acquired Immune Deficiency Syndrome (AIDS). Although the designation is not correct, it has been accepted by the scientific community. AIDS includes multiple clinical situations that have in common HIV infection and an almost constant ID, that at the end of natural course of infection manifestated by the presence of opportunistic infections and malignant tumors. HIV-1 and HIV-2 are slow RNA viruses with a common architecture and well known genomic organization. The characteristics that made HIV infectious agent n. 1 in XXth Century are their remarkable heterogeneity, close AA sequence homology between some of their proteins and relevant molecules in human beings: MHC molecules, IL-2, VIP, etc. and a strong affinity of gp 120 to CD4 receptor of T helper lymphocytes (T4), mononuclear phagocytes, natural killer cells, etc. all of them sharing a relevant role in normal immune response (IR). Affected in its cornerstones of cellular defense, human organism starts an immune defense through antibodies, cytotoxic T Lymphocytes (CTL) Natural Killer Cells (NK) antibody dependent cell cytotoxicity (ADCC), that fails. Activating immune system HIV turn that defense strategy to their own profit and enhanced replication. After an apparent latency period--in which the balance seems to favor the host--new viral variants arise due to high rate of HIV mutagenesis, that in turn stimulate immune system, induce new cycles of viral replication and new high virulent mutants, leading to the final collapse of Immune System.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Immunologic aspects of HIV infection]. 180 34

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