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)

The high-affinity interleukin 2 (IL-2) receptor is a heterotrimer consisting of alpha, beta, and gamma subunits. We examined the concentration of subunit mRNA for each of the three protein subunits on human hematopoietic cell lines, human peripheral blood mononuclear cells, and murine fibroblasts transfected with cDNAs encoding the human IL-2 receptor subunits. In most cultured hematopoietic cells, there was abundant gamma subunit message. In contrast, there was variable expression of both alpha and beta subunit message. Sensitivity of cells to the diphtheria fusion toxin DAB389IL-2 was not related to expression of any single IL-2 receptor subunit mRNA. Rather, the greatest sensitivity was observed for cells possessing all three subunit mRNAs. Cells displaying beta and gamma subunit mRNA showed a reduced but significant sensitivity to the fusion toxin. In contrast, cells with alpha and gamma subunit mRNA, but missing the beta subunit mRNA, were insensitive to DAB389IL-2. The data correlate with the requirement for an intermediate or a high-affinity receptor for cell intoxication. A critical concentration of the beta subunit may be required for toxin internalization and killing.
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PMID:Interleukin 2 (IL-2) receptor expression and sensitivity to diphteria fusion toxin DAB389IL-2 in cultured hematopoietic cells. 865 2

Interleukin 2 (IL-2), a T cell-derived cytokine, targets a variety of cells to induce their growth, differentiation, and functional activation. IL-2 inserts signals into the cells through IL-2 receptors expressed on cell surfaces to induce such actions. In humans, the functional IL-2 receptor consists of the subunit complexes of the alpha, beta and gamma chains, or the beta and gamma chains. The third component, the gamma chain, of IL-2 receptor plays a pivotal role in formation of the full-fledged IL-2 receptor, together with the beta chain, the gamma chain participates in increasing the IL-2 binding affinity and intracellular signal transduction. Moreover, the cytokine receptors for at least IL-2, IL-4, IL-7, IL-9, and IL-15 utilize the same gamma chain as an essential subunit. Interestingly, mutations of the gamma chain gene cause human X-linked severe combined immunodeficiency (XSCID) characterized by a complete or profound T cell defect. Among the cytokines sharing the gamma chain, at least IL-7 is essentially involved in early T cell development in the mouse organ culture system. The molecular identification of the gamma chain brought a grasp of the structures and functions of the cytokine receptor and an in-depth understanding of the cause of human XSCID. To investigate the mechanism of XSCID and development of gene therapy for XSCID, knockout mice for the gamma chain gene were produced that showed similar but not exactly the same phenotypes as human XSCID.
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PMID:The interleukin-2 receptor gamma chain: its role in the multiple cytokine receptor complexes and T cell development in XSCID. 871 12

The IL-2 receptor (IL-2R) is composed of three chains alpha, beta and gamma. In mice, contrary to the human system, we have previously demonstrated that the IL-2R beta gamma complex does not bind IL-2. Therefore, mouse IL-2 response is completely dependent on the expression of the IL-2R alpha gene product. T cell clones expressing mouse IL-2R beta gamma and the human IL-2R alpha transgene have been studied. When cells are grown in IL-4, mouse IL-2R alpha is not expressed. However, exposure to IL-2 leads to the expression of the endogenous murine IL-2R alpha subunit. The T cell line expressing mouse IL-2R gamma and human IL-2R beta can grow in IL-2 but does not express endogenous murine IL-2R alpha. Transfection of these cells with the human IL-2R alpha gene restores the capacity to induce murine IL-2R alpha. This result demonstrates that IL-2-IL-2R alpha interactions are required for induction of IL-2R alpha. The kinetics of induction and deinduction of murine IL-2R alpha have been studied using clone 18.III. From negative cells, expression of murine IL-2R alpha is a very slow phenomenon. From cells fully expressing IL-2R alpha, deinduction is a two-step process: after a rapid decrease of IL-2R alpha the cells continue to express, for a long period of time, basal levels of murine IL-2R alpha. When cells expressing basal levels of IL-2R alpha are exposed to IL-2, induction of IL-2R alpha is a very rapid phenomenon. The autoregulatory loop formed by IL-2-IL-2R alpha therefore displays different levels of functioning.
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PMID:Ligand-induced autoregulation of IL-2 receptor alpha chain expression in murine T cell lines. 892 31

Our previous study demonstrated that IL-2 suppressed growth of human T cell lines, in which the suppression was observed with members among HTLV-I-infected T cell lines independent of IL-2 for growth. In this study, we examined the molecular mechanism of IL-2-induced growth suppression with two HTLV-I-infected T cell lines; TL-OmI expressing endogenously three subunits, i.e. alpha, beta and gamma chains, of the IL-2 receptor, and an MT-1 transfectant expressing the endogenous alpha and gamma chains and exogenous beta chain. Our analysis revealed that IL-2 induced apoptosis in both T cell lines. Experiments with inhibitors for the proteases responsible for apoptosis signals showed that caspase 1 (IL-1 beta-converting enzyme) was not involved in apoptosis induced by IL-2. Other MT-1 sublines introduced with mutant beta chains demonstrated that IL-2-induced apoptosis required signals from both the serine-rich (S) region and acidic (A) region of the IL-2 receptor beta chain, which are essential but not critical for IL-2-mediated cell growth respectively. Collectively, IL-2 functions not only on growth promotion and prevention of apoptosis but also on induction of apoptosis, which may be implicated in physiological regulation of immune reactions by controlling growth and activation of T cells.
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PMID:Induction of IL-1 beta-converting enzyme-independent apoptosis by IL-2 in human T cell lines. 931 Aug 33

The therapeutic value of Interleukin 2 (IL-2) is limited by its short half life and systemic toxicity. One approach to overcoming these problems is to fuse this protein to an antibody, a protein with a long half life and the ability to target a unique antigen within the body. To examine the biochemical properties of such a molecule a fusion protein was constructed linking the N-terminus of human IL-2 to the C-terminus of IgG3. A similar fusion between IgG1 and IL-2 has previously been shown to bind antigen, generate antibody-dependent cellular cytotoxicity (ADCC) and stimulate T cell proliferation and cytotoxicity. We now extend these studies and show that the fusion protein, termed IgG3-IL2, is appropriately N-glycosylated within the IgG3 CH2 domain, binds the human high affinity Fc receptor (Fc gamma RI) with an affinity slightly lower than that of IgG3, and is able to activate complement via the classical pathway to lyse antigen coated sheep red blood cells (SRBC). When used to stimulate the proliferation of the IL-2 dependent cell line CTLL-2, IgG3-IL2 has a specific activity slightly lower than that of human recombinant IL-2 (hrIL-2). In marked contrast, when comparable unit concentrations, as defined by the standard CTLL-2 proliferation assay, are used to stimulate human peripheral blood lymphocytes (PBL), IgG3-IL2 generates significantly greater lymphokine activated killer (LAK) cell cytotoxicity than does hrIL-2. Competition studies show that IgG3-IL2 binds the intermediate affinity form of the IL-2 receptor (IL-2R), consisting of the beta and gamma subunits, with an affinity slightly less than that of hrIL-2. In contrast, IgG3-IL2 shows a greater affinity than hrIL-2 for the high affinity IL-2R, consisting of alpha, beta and gamma subunits. Our studies show that the IgG3-IL2 fusion protein possesses a combination of the biological properties of IgG3 and IL-2 including antigen binding, complement activation, Fc gamma RI binding, IL-2R binding and stimulation of both proliferation and LAK activity. This combination of activities may allow IgG3-IL2 to target humoral and cell-mediated immune activation to the site of an antigen of interest or target an antigen to IL-2R bearing cells or organs.
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PMID:An IgG3-IL2 fusion protein activates complement, binds Fc gamma RI, generates LAK activity and shows enhanced binding to the high affinity IL-2R. 937 38

One of the most common human immunodeficiencies is an X-linked condition arising from mutations of the gamma subunit of the interleukin-2 receptor (IL-2Rgamma). The IL-2Rgamma protein is one chain of the heterotrimeric (alpha, beta, gamma) IL-2 receptor, but also participates in the formation of the IL-4, 7, 9, and 15 receptor complexes. The diagnosis of X-linked SCID is usually relatively simple due to the distinctive immunological presentation; IL-2Rgamma-deficient patients typically lacking mature T lymphocytes (T-B+). However, it is becoming clear that this merely represents one extreme of a potential range of clinical presentations. We describe here a novel mutation of the human IL-2Rgamma chain (R222C) resulting in an unusual immunological phenotype. Although clinically immunodeficient, this patient has normal numbers of peripheral T and B cells, responds normally to mitogenic stimuli, and unusually, has a normal thymus gland. This IL-2Rgamma mutation is distinctive in that the protein is sufficiently stable to be expressed at the cell surface. While the T cell receptor repertoire appears complete, suggesting normal T cell differentiation occurs, patient T cells demonstrate a reduced ability to bind IL-2 and this appears sufficient to cause a deficiency in their ability to participate in antigenic responses. Early clinical recognition of this phenotype is critical as a delay in diagnosis may result in a fatal infection.
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PMID:An interleukin-2 receptor gamma chain mutation with normal thymus morphology. 939 50

Molecular models of IL-2delta2 and IL-2delta3, two alternative splice variants of human IL-2 without exon 2 and 3, respectively, are described. These alternative splice variants attract particular interest as potential competitive inhibitors of the cytokine. Tertiary structure of IL-2 consists of four-helix bundle including helices A, B, C and D and a beta-pleated sheet. Exon 2 encodes the A-B loop (Asn30-Lys49 residues) linking helices A and B running in one direction. Rotation of the helix A around putative centre during the construction of IL-2delta2 model have not produced any significant changes in the hydrophobic core of IL-2 molecule. However, a large hole was formed on the surface of IL-2delta2 molecule instead of A-B loop in IL-2 fold. A high affinity IL-2 receptor is formed by combination of alpha, beta, and gamma(c) chains. Comparison of the model of the receptor bound IL-2 with the model of IL-2delta2 has shown that their beta-chain binding sites have minimum differences as distinct from alpha and gamma(c) chain-binding sites. Exon 3 encodes Ala50-Lys97 fragment which forms helices B and C with their short connecting loop. Model IL-2delta3 consists of helices A and D and long linking loop. This loop was composed of A-B and C-D loops which run in opposite directions in IL-2 structure and contain beta-strands making a beta-pleated sheet. Conformation of the linking loop relatively to helices A and D was stabilized by creation of a disulphide bond between cysteines 105 and 125. In addition, the hydrophobic residues of beta-sheet interact with the hydrophobic surface of A-D helical complex and close the latter from contacts with solution. Comparison of the model of IL-2 bound to receptor with IL-2delta3 model has shown that absence of helices B and C in IL-2delta3 model results in insignificant conformational changes only in residues interacting with gamma(c) chain of the receptor. The beta/gamma(c) heterodimer is an intermediate affinity receptor of IL-2. Most likely, both IL-2delta2 and IL-2delta3 are naturally occurring IL-2 antagonists since they keep the ability of binding with an intermediate affinity receptor of this cytokine and fail to engage the alpha chain of its high affinity receptor.
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PMID:Molecular models of two competitive inhibitors, IL-2delta2 and IL-2delta3, generated by alternative splicing of human interleukin-2. 955 46

Dendritic cells (DC) have been shown to develop along a myeloid or lymphoid lineage of differentiation propagated from bone marrow or early thymic precursor cells with hematopoietic cytokines. In our study, we have induced growth and differentiation of DC from cord blood CD34+ cells initiated in interleukin-2 (IL-2) alone or in IL-2 + stem cell factor (SCF) + tumor necrosis factor alpha (TNF-alpha)-supplemented medium and cultured with IL-2 or IL-2 + SCF for 28-35 days. Dendritic morphology and antigenic phenotype of DC grown with IL-2 were characteristic for DC cultured in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF). Growth and differentiation of DC was followed by an increase in expression of MHC II and co-stimulating molecules CD80 and CD86. We have also shown the expression of the IL-2 receptor (IL-2R) gamma-chain in CD34+ cells after 2-3 days of culture with IL-2 alone. The co-expression of the IL-2R alpha, beta, and gamma subunits in both DC cultured with IL-2- or GM-CSF-containing cocktail of cytokines was also shown. The time curve for induction of IL-2R demonstrated low levels of subunit expression at the beginning of culture. The number of CD1a cells co-expressing CD25, CD122, and CDgamma increased to about 24-68 and to 78-95% after 21 and 28-35 days, respectively. Development of natural killer cells was shown along with DC. The proportion of CD56+ cells and cytotoxicity increased in a time-dependent manner.
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PMID:Interleukin-2-induces development of denditric cells from cord blood CD34+ cells. 958 7

Interleukin-2 (IL-2) is a pluripotent cytokine which plays a crucial role in the immune system response. Although the IL-2/IL-2 receptor (IL-2R) system has been well characterized in cells of the T lineage it is less known in B lymphocytes. The authors therefore studied the expression of the IL-2R alpha, beta and gamma subunits in human B-cell lines at different stages of maturation, by the polymerase chain reaction technique. The authors found that the alpha and beta subunits are expressed in the final stages of B-cell lineage maturation, whereas the gamma subunit is constitutively expressed during B-lymphocyte differentiation. The results indicate that the IL-2/IL-2R system, most probably, does not have a role in the early stages of B-cell differentiation, but may be involved only in the final stages of B-cell lineage ontogeny. Moreover, the ability of the different forms of IL-2R to internalize the IL-2 ligand was investigated, using the chimeric protein IL-2-PE66(4Glu). Cell lines bearing the alphagamma, betagamma and alpha betagamma forms of IL-2R were inhibited by the chimeric protein, while those bearing the gamma subunit alone did not respond to the chimera. Thus, internalization of IL-2 is most likely mediated via the alphagamma form of the IL-2R, as shown here for the first time, as well as through the betagamma and alpha betagamma IL-2R forms. However, IL-2 cannot be internalized through the IL-2R gamma subunit alone.
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PMID:Interleukin-2 (IL-2) receptor alpha, beta and gamma subunit expression as a function of B-cell lineage ontogeny: the use of IL-2-PE66(4Glu) to characterize internalization via IL-2 receptor subunits. 958 93

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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