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)

Severe combined immunodeficiency (SCID) represents a genetically heterogeneous group of primary immunodeficiency disorders. Irrespective of the genetic defect, patients with SCID may be engrafted with transplacentally derived maternal T-lymphocytes that in a subset of cases may be responsive to phytohemagglutinin. Here, we present, from a genetic perspective, an SCID patient who not only harbored a novel mutation in the gene encoding the common gamma chain (gamma c) of the IL-2 receptor (IL2RG), but also carried reactive maternal T lymphocytes that produced a karyotype that was initially perplexing.
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PMID:A novel IL2RG mutation associated with maternal T lymphocyte engraftment in a patient with severe combined immunodeficiency. 1660 12

Most memory phenotype (MP) CD44(hi) CD8(+) cells are resting interleukin (IL)-15-dependent cells characterized by high expression of the IL-2/IL-15 receptor beta (CD122). However, some MP CD8(+) cells have a CD122(lo) phenotype and are IL-15 independent. Here, evidence is presented that the CD122(lo) subset of MP CD8(+) cells is controlled largely by major histocompatibility complex (MHC) class I molecules. Many of these cells display surface markers typical of recently activated T cells (CD62L(lo), CD69(hi), CD43(hi), and CD127(lo)) and show a high rate of background proliferation. Cells with this phenotype are highly enriched in common gamma chain-deficient mice and absent from MHC-I(-/-) mice. Unlike CD122(hi) CD8(+) cells, CD122(lo) MP CD8(+) cells survive poorly after transfer to MHC-I(-/-) hosts and cease to proliferate. Although distinctly different from typical antigen-specific memory cells, CD122(lo) MP CD8(+) cells closely resemble the antigen-dependent memory CD8(+) cells found in chronic viral infections.
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PMID:A major histocompatibility complex class I-dependent subset of memory phenotype CD8+ cells. 1681 71

This review comments on basic and clinical immunology articles that were published in 2005, with a focus on those that appeared in the Journal of Allergy and Clinical Immunology. In the area of basic immunology, mechanisms of the innate immune system and its interaction with the adaptive immune system were described, with special consideration to applications in biodefense strategies. T regulatory cells were further characterized in their role for the control of allergic, autoimmune, and neoplastic disorders. The function of the thymus Hassall's corpuscles was reported to be the generation of T regulatory cells. Flavonoid molecules obtained from medicinal herbs, including astilbin and epigallocatechin gallate, were discovered to have immunomodulatory properties. Advances in clinical immunology resulted from efforts to develop a newborn screening test for severe combined immunodeficiency and the elucidation of the crystal structure of the IL-2 receptor gamma chain. Mutations in the membrane receptor transmembrane activator and calcium modulator and cyclophilin ligand interactor were found in patients with common variable immunodeficiency. New therapeutic options are described, such as the use of infliximab for granulomas and GM-CSF for chronic ulcers in patients with common variable immunodeficiency. The importance of mucosal immunity in acute HIV infection is cited, as is the role of CD8+ T-cell activation in HIV disease progression in children.
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PMID:Advances in basic and clinical immunology. 1689 Jul 76

The common gamma chain cytokines interleukin (IL)-2 and IL-7 are important regulators of T cell homeostasis. Although IL-2 is implicated in the acute phase of the T cell response, IL-7 is important for memory T cell survival. We asked whether regulated responsiveness to these growth factors is determined by temporal expression of the cytokine-specific IL-2 receptor (R) alpha and IL-7Ralpha chains. We demonstrate that IL-2Ralpha is expressed early after priming in T cell receptor-transgenic CD4(+) T cells, whereas IL-7Ralpha expression is lost. In the later stage of the response, IL-7Ralpha is reexpressed while IL-2Ralpha expression is silenced. This reciprocal pattern of IL-2Ralpha/IL-7Ralpha expression is disturbed when CD4(+) T cells are primed in the absence of IL-2 signals. Primed IL-2(-/-) or CD25(-/-) (IL-2Ralpha(-/-)) CD4(+) T cells, despite showing normal induction of activation markers and cell division, fail to reexpress IL-7Ralpha late in the response. Because the generation of CD4(+) memory T cells is dependent on IL-7-IL-7Ralpha interactions, primed IL-2(-/-) or CD25(-/-) CD4(+) T cells develop poorly into long-lived memory cells. Retrovirus-mediated expression of IL-7Ralpha in IL-2(-/-) T cells restores their capacity for long-term survival. These results identify IL-2 as a factor regulating IL-7Ralpha expression and, consequently, memory T cell homeostasis in vivo.
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PMID:Interleukin-2 enhances CD4+ T cell memory by promoting the generation of IL-7R alpha-expressing cells. 1731 8

In the study of interleukin-2 (IL-2) -induced signal transduction system, we identified and cloned the third component of IL-2 receptor, IL-2Rgamma chain. Functional high affinity IL-2 receptor consists of three subunits, alpha, beta and gamma chains. Interestingly not only IL-2 but also IL-4, IL-7, IL-9, IL-15 and IL-21 utilize the gamma chain as an essential component of each receptors. Therefore the gamma chain is now called as a common gamma chain (gammac). Moreover the gene of gammac is on the X chromosome, and mutations of gammac gene cause human X-linked severe combined immunodeficiency (X-SCID) characterized by a complete or profound defect of T cells and NK cells, and by the presence of dysfunctional B cells. The dysfunctions in IL-7- and IL-15-induced signal transduction cause the T cell and NK cell defect, respectively and dysfunctions in both IL-4- and IL-21-induced signal transduction cause the B cell dysfunction in X-SCID patients. Gene therapy is a good candidate for X-SCID treatment because only the HLA-matched bone marrow transplantation is an effective therapy. Unfortunately because of an unexpected adverse effect, such gene therapy using retrovirus vector is now aborted. IL-21 is a recently identified cytokine, which shares the gammac. IL-21 regulates the proliferation of T cells, the proliferation and differentiation of B cells, and the activation and expansion of NK cells. We demonstrated that human IL-21 was produced from activated CD4+ central and effector memory T cells but not from naive CD4+ T cells nor CD8+ T cells. Furthermore we found that IL-21 supported cytokine-driven proliferation of CD4+ helper T cells cooperatively with IL-7 and IL-15.
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PMID:[Analysis of gammac-dependent cytokines-mediated immunoregulation]. 1731 91

Common lymphoid progenitors (CLPs) are lymphoid-lineage-committed progenitor cells. However, they maintain a latent myeloid differentiation potential that can be initiated by stimulation with interleukin-2 (IL-2) via ectopically expressed IL-2 receptors. Although CLPs express IL-7 receptors, which share the common gamma chain with IL-2 receptors, IL-7 cannot initiate lineage conversion in CLPs. In this study, we demonstrate that the critical signals for initiating lineage conversion in CLPs are delivered via IL-2 receptor beta (IL-2R beta) intracellular domains. Fusion of the A region of the IL-2R beta cytoplasmic tail to IL-7R alpha enables IL-7 to initiate myeloid differentiation in CLPs. We found that Shc, which associates with the A region, mediates lineage conversion signals through the mitogen activated protein kinase (MAPK) pathway. Because mitogen-activated protein kinase kinase (MEK)/extracellular signal-regulated kinase (ERK) inhibitors completely blocked IL-2-mediated lineage conversion, MAPK activation, specifically via the MEK/ERK pathway, is critically involved in the initiation of this event. Furthermore, formation of granulocyte/macrophage (GM) colonies by hematopoietic stem cells, but not by common myeloid progenitors (CMPs), was severely reduced in the presence of MEK/ERK inhibitors. These results demonstrate that activation of MEK/ERK plays an important role in GM lineage commitment.
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PMID:Activation of mitogen-activated protein kinase kinase (MEK)/extracellular signal regulated kinase (ERK) signaling pathway is involved in myeloid lineage commitment. 1753 16

Cytokines signaling through receptors sharing the common gamma chain (gamma(c)), including IL-2, IL-4, IL-7, IL-9, IL-15 and IL-21, are critical for the generation and peripheral homeostasis of B, T and NK cells. To identify unique or redundant roles for gamma(c) cytokines in naive CD4(+) T cells, we compared monoclonal populations of CD4(+) T cells from TCR-Tg mice that were gamma(c) (+), gamma(c) (-), CD127(-/-) or CD122(-/-). We found that gamma(c) (-) naive CD4(+) T cells failed to accumulate in the peripheral lymphoid organs and the few remaining cells were characterized by small size, decreased expression of MHC class I and enhanced apoptosis. By over-expressing human Bcl-2, peripheral naive CD4(+) T cells that lack gamma(c) could be rescued. Bcl-2(+) gamma(c) (-) CD4(+) T cells demonstrated enhanced survival characteristics in vivo and in vitro, and could proliferate normally in vitro in response to antigen. Nevertheless, Bcl-2(+) gamma(c) (-) CD4(+) T cells remained small in size, and this phenotype was not corrected by enforced expression of an activated protein kinase B. We conclude that gamma(c) cytokines (primarily but not exclusively IL-7) provide Bcl-2-dependent as well as Bcl-2-independent signals to maintain the phenotype and homeostasis of the peripheral naive CD4(+) T cell pool.
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PMID:gamma(c) cytokines provide multiple homeostatic signals to naive CD4(+) T cells. 1772 89

There is a growing need for effective animal models to carry out experimental studies on human hematopoietic and immune systems without putting individuals at risk. Progress in development of small animal models for the in vivo investigation of human hematopoiesis and immunity has seen three major breakthroughs over the last three decades. First, CB 17-Prkdc(scid) (abbreviated CB 17-scid) mice were discovered in 1983, and engraftment of these mice with human fetal tissues (SCID-Hu model) and peripheral blood mononuclear cells (Hu-PBL-SCID model) was reported in 1988. Second, NOD-scid mice were developed and their enhanced ability to engraft with human hematolymphoid tissues as compared with CB17-scid mice was reported in 1995. NOD-scid mice have been the "gold standard" for studies of human hematolymphoid engraftment in small animal models over the last 10 years. Third, immunodeficient mice bearing a targeted mutation in the IL-2 receptor common gamma chain (IL2rgamma(null)) were developed independently by four groups between 2002 and 2005, and a major increase in the engraftment and function of human hematolymphoid cells as compared with NOD-scid mice has been reported. These new strains of immunodeficient IL2rgamma(null) mice are now being used for studies in human hematopoiesis, innate and adaptive immunity, autoimmunity, infectious diseases, cancer biology, and regenerative medicine. In this chapter, we discuss the current state of development of these strains of mice, the remaining deficiencies, and how approaches used to increase the engraftment and function of human hematolymphoid cells in CB 17-scid mice and in previous models based on NOD-scid mice may enhance human hematolymphoid engraftment and function in NOD-scid IL2rgamma(null) mice.
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PMID:Humanized SCID mouse models for biomedical research. 1848 51

"Humanized" mice are a promising translational model for studying human hematopoiesis and immunity. Their utility has been enhanced by the development of new stocks of immunodeficient hosts, most notably mouse strains such as NOD-scid IL2rgamma(null) mice that lack the IL-2 receptor common gamma chain. These stocks of mice lack adaptive immune function, display multiple defects in innate immunity, and support heightened levels of human hematolymphoid engraftment. Humanized mice can support studies in many areas of immunology, including autoimmunity, transplantation, infectious diseases, and cancer. These models are particularly valuable in experimentation where there is no appropriate small animal model of the human disease, as in the case of certain viral infections. This unit details the creation of humanized mice by engraftment of immunodeficient mice with hematopoietic stem cells or peripheral blood mononuclear cells, provides methods for evaluating engraftment, and discusses considerations for choosing the appropriate model system to meet specific goals.
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PMID:Creation of "humanized" mice to study human immunity. 1849 Dec 94

Although adoptive transfer of tumor-specific T cells is a plausible approach for cancer immunotherapy, the therapeutic application was hampered due to severe side effects caused by administration of high-dose interleukin (IL)-2, which was used for long-lasting maintenance of tumor-specific T cells in vivo. To solve this problem, here we propose to use an antibody/IL-2 receptor chimera, which can transduce a growth signal in response to a cognate antigen. As a model system, V(H) or V(L) region of anti-hen egg lysozyme (HEL) antibody HyHEL-10 was tethered to extracellular D2 domain of erythropoietin receptor and transmembrane/cytoplasmic domains of IL-2 receptor beta or gamma chain. When the pairs of chimeric receptors (V(H)-IL-2Rbeta and V(L)-IL-2Rgamma, or V(H)-IL-2Rgamma and V(L)-IL-2Rbeta) were expressed in IL-3-dependent pro-B cell line Ba/F3 and IL-2-dependent T cell line CTLL-2, the cognate antigen HEL induced selective expansion of gene-modified cells in the absence of IL-3 and IL-2, respectively. Growth assay revealed that the combination of V(H)-IL-2Rbeta and V(L)-IL-2Rgamma transduced a more stringent HEL-dependent growth signal, indicating some conformational effects of the chimeras. Furthermore, STAT3, STAT5 and ERK1/2, which are hallmarks for IL-2R signaling, were all activated by the antibody/IL-2R chimeras. These results clearly demonstrate that the antibody/IL-2R chimeras could substantially mimic the wild-type IL-2R signaling, suggesting the potential application in expansion of gene-modified T cells.
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PMID:Selective expansion of genetically modified T cells using an antibody/interleukin-2 receptor chimera. 1858 35

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