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Query: UNIPROT:P14784 (
IL-2 receptor
)
3,849
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Total mRNA was extracted from activated T lymphocytes and Jurkat cells with and without heat shock, and then used for alpha-32P-labeled 1st strand cDNA synthesis with reverse transcriptase. DNA restriction fragments or cloned vectors of five oncogenes (abl, myc, myb, fos, Ki-
ras
) and of IL-2,
IL-2 receptor
, T-cell receptor beta-chain and transferrin receptor were dotted onto nitrocellulose filters. Hybridization results showed that the expression of c-myc and TfR mRNA was much lower in heat-shocked cells than in their normal counterparts. However IL-2 and Ki-
ras
mRNA increased after heat shock. Possible explanations for the results are discussed.
...
PMID:[The effect of heat shock on mRNA expression in human T lymphocytes]. 215 Dec 59
The objective was to investigate if the presence of the v-Ha-
ras
oncogene could induce immune changes different to the ones observed in normal mice. Therefore, we decided to use Oncomice, the transgenic mice with an activated v-Ha-
ras
oncogene under the control of the mouse mammary tumor virus-promoter, and their normal inbred counterparts, FVB mice. Both strains of mice were fed the Lieber-DeCarli liquid diet with ethanol or the isocaloric control diet and were injected daily with cocaine or saline. The percentage and absolute number of T and B lymphocytes in the spleen and thymus were determined. The in vitro production of TNF-alpha (tumor necrosis factor-alpha), IL-2 (interleukin-2) and IFN-gamma (interferon-gamma) by spleen cells, and the levels of serum sIL-2R (soluble
IL-2 receptor
) were also measured. Oncomice fed the Lieber-DeCarli ethanol diet or receiving either saline or cocaine injections presented a higher tumor incidence than Oncomice receiving the control diet. A reduced total number of thymocytes as well as absolute number of cells in all the subsets was found in Oncomice. Moreover, a decreased percentage of CD8+ cells was also observed in Oncomouse spleens. These features were even more marked in ethanol-treated Oncomice. Higher serum sIL-2R levels were observed in Oncomice, especially in mice treated with ethanol or cocaine. The results suggest that the oncogene product, P21ras, plays an important role in dysregulating the immune system and hence in favoring tumorigenesis.
...
PMID:Effect of ethanol and cocaine treatment of the immune system of v-Ha-ras-transgenic mice. 889 4
ERYTHROPOIETIN (EPO): Erythropoietin (EPO) is a hormone that promotes the proliferation and differentiation of erythroid progenitor cells and regulates the number of erythrocytes in peripheral blood. EPO is produced mainly by the kidneys, and transcription of the EPO gene is promoted by a reduction in the oxygen concentration in the blood. The existence of EPO was suggested near the end of the 19th century by the discovery that hypoxia increases the production of red blood cells. EPO was identified as a serum factor in the 1950s, and in 1970 Miyake and coworkers succeeded in purifying it by using the urine of patients with aplastic anemia as a starting material. The human EPO gene was cloned in 1985 using a partial amino acid sequence from this purified EPO, and it is well known that recombinant EPO is currently used as a drug to treat anemia associated with chronic renal failure and other illnesses. ACTION OF EPO: When human bone marrow cells are cultured in a semisolid medium containing EPO, they form small erythroblast colonies in five to seven days, and by day 10 large erythroblast colonies appear that resemble fireworks ("burst" colonies). The original cells in the former colonies are called colony forming units-erythroid (CFU-E) or late-stage erythroblast progenitor cells and in the latter colonies they are called burst forming units-erythroid (BFU-E) or early-stage erythroblast progenitor cells. As shown in Figure 1, red blood cells are produced through differentiation from stem cells to BFU-E, CFU-E, and erythroblasts. Although EPO acts on both BFU-E and CFU-E cells, CFU-E cells show greater sensitivity to EPO, and other factors such as stem cell factor (SCF), interleukin (IL)-3, IL-4, and granulocyte macrophage colony-stimulating factor (GM-CSF) must be present together with EPO for BFU-E cell proliferation. In erythroblasts beyond the CFU-E stage, sensitivity to EPO decreases as the cells mature. THE EPO RECEPTOR AND THE CYTOKINE RECEPTOR FAMILY: The EPO receptor gene was cloned by D'Andrea and coworkers in 1989 from murine erythroleukemia cells [1]. It became clear that the EPO receptor belongs to the cytokine receptor family that comprises receptors for the various interleukins, GM-CSF, granulocyte colony-stimulating factor (G-CSF), growth hormone and prolactin. The special characteristic of this family of receptors is that they are switched on (i.e., the receptor is activated) and transduce signals to the interior of the cell by the formation of homo- or hetero-oligomers (dimers or trimers). Moreover, hetero-oligomers of these receptors share a common receptor subunit. As shown in Figure 2, the IL-3, IL-5 and GM-CSF receptors have a common &bgr; subunit, and their ligand specificity is determined by the &agr; subunit. In the same manner, the IL-6, LIF and oncostatin M (OSM) receptors all share gp130, which is the &bgr; subunit of the IL-6 receptor. The IL-2, IL-4 and IL-7 receptors all share the &ggr; subunit of the
IL-2 receptor
. All the above receptors are activated by the formation of hetero-oligomers, but the G-CSF receptor, EPO receptor, and growth hormone receptor are activated by the formation of homodimers of the same types of molecules [2]. We can see that groups of cytokines such as the interleukins that affect a relatively wide range of cells and have redundant biological activity create this redundancy through the common use of a single receptor subunit. On the other hand, EPO and G-CSF act with high specificity on a relatively limited range of cells, so it was probably unnecessary for their receptors to share one of the subunits. EPO RECEPTOR AND JAK2 KINASE: The signal for cellular proliferation and differentiation into erythroblasts is thought to originate at the EPO receptor. The cytoplasmic domain of the EPO receptor can be divided into two major regions. Roughly half of the cytoplasmic domain, the part lying nearest the plasma membrane, is required for generating the signals for proliferation and differentiation such as the induction of globin synthesis [3, 4]. The remaining half is not required for this signaling, and, conversely, it acts to dampen the signals. It is known that a tyrosine kinase called JAK2 associates with the region near the plasma membrane, undergoes autophosphorylation, and phosphorylates the EPO receptor, and a transcription factor called a STAT [5]. It is thought that JAK2 plays an important role in promoting cellular proliferation. The STAT is activated by the phosphorylation, and it then translocates to the nucleus, recognizes a specific base sequence in the promoter region of its target gene, and initiates transcription. At present, we know that the STAT whose activation is mediated by the EPO receptor is STAT5, and the target genes are CIS [6], which has an SH2 domain (a molecular structure that recognizes a phosphorylated tyrosine) and OSM [7], which is a pleiotropic cytokine. However, activation of STAT5 and activation of the target genes are not unique to the EPO receptor, and they also occur with the IL-2 and IL-3 receptors. Moreover, the JAK2 substrate that is directly linked to cellular proliferation is still unknown. At present, studies are under way to determine the transcription factors specific to EPO and their target genes, as well as the substrates of JAK2. RECEPTOR PHOSPHORYLATION AND CESSATION OF THE SIGNAL: On the other hand, tyrosine phosphorylation of the receptor is necessary at the cytoplasmic tail region far from the plasma membrane, and the signal transduction pathway that originates with this phosphorylated tyrosine and is mediated by proteins with SH2 domains becomes activated. First, a GTP/GDP exchange factor called SOS, which is mediated by Shc and Grb2, migrates to the plasma membrane and converts a
ras protein
to its GTP form. The activated
ras protein
then activates the Raf-MAP kinase kinase-MAP kinase cascade, and ultimately initiates the transcription of oncogenes such as c-fos and c-jun. An enzyme called PI3 kinase binds to the tyrosine phosphorylation site of the receptor and a second messenger is born. It is known that this pathway is a requirement for DNA synthesis in certain types of fibroblasts. However, these signal transduction pathways are not unique to the EPO receptor, and they are also activated by most growth factor receptors, so they are not necessarily required for EPO-induced proliferation. Conversely, the tyrosine phosphatase SH-PTP1 (also called HCP) that has an SH2 domain and is specific to blood cells associates with the tyrosine phosphorylation site of the receptor and promotes the dephosphorylation of JAK2. In other words, the role of SH-PTP1 is to stop generation of the signal [8]. Therefore, in mutations lacking this cytoplasmic tail region of the receptor far from the plasma membrane, the receptors do not undergo tyrosine phosphorylation, JAK2 activation continues for a longer period of time, and thus the signal is generated more efficiently. In fact, in one patient with a mild case of familial erythrocytosis a mutation was discovered in which the C-terminus of the EPO receptor was missing 70 amino acids [9]. This was a dominant genetic trait, and the patient's erythroblasts showed an increased sensitivity to EPO. In this family the impairment was not severe enough to be called an illness, and in fact it is said that this patient was proficient enough athletically to compete for a gold medal at the Olympics. More specifically, the reason that athletes undergo training at high altitudes is to boost EPO production because of the lower oxygen partial pressure, and this brings about the desired effect of sustained athletic capability due to a resultant increase in red blood cells. However, the same effect has occurred naturally in this athlete thanks to accelerated receptor capability.
...
PMID:Physician Education: The Erythropoietin Receptor and Signal Transduction. 1038 12
Our previous data on colorectal cancer suggest that there are faults at the level of mechanisms of the proliferative responses of patients peripheral blood mononuclear cells (PBMC) to the interleukin (IL)-2 and IL-2 PBMC production, which increase with the stage advancement. The damages in the proliferative response seem to be eliminated by the costimulator effects of the signals produced by the anti-CD3 monoclonal antibody (antiCD3), and the disregulation in TH subsets of CD4+ T cells with a malfunction of TH1 cells and an expansion of TH2, might contribute to this situation. So, by using biotherapeutic treatments to allow the generation of productive immune response in these patients it is essential to identify the defect in their immune system to discover how these mechanisms should be appropriately manipulated in vivo to switch their immune response from a non-productive to a productive one. We have studied this in a group of patients and healthy subjects as the control group, performing their immunological evaluation by determining these parameters: serum levels of IL-2, interferon (IFN) gamma, IL-4, IL-6, IL-7, IL-8, tumour necrosis factor (TNF) alpha, soluble
IL-2 receptor
(sIL-2R), intercellular adhesion molecule 1 (sICAM-1) and CD30 (sCD30) molecules; PBMC phenotypic antigens expression (CD3, CD4, CD8, CD19, CD16, CD56, CD57, CD25) on peripheral blood mononuclear cells (PBMC); proliferative response of PBMC to IL-2, IL-4 and anti-CD3 monoclonal antibody (antiCD3). Moreover, since mutant
c-Ki-ras
oncogene is a very frequent finding in colorectal cancers and there are indications which suggest its involvement in tumour progression, the analysis of c-ki-
ras
codon 12 and 13 were determined and the statistical evaluation of the above immunological parameters were performed by comparing the patient groups with (M+) and without (M-) these mutations with each other, and with the healthy group. The results underline the necessity of biotherapeutic treatments inducing TH1 cell functions in these patients. Moreover in M+ it seems also important to solve the problem of the switch from B to macrophage cells as immune cells which present antigens, and the possible involvement of
c-Ki-ras
gene mutations in the impairment of T cell receptor activation (TCR).
...
PMID:Necessity of biotherapeutic treatments inducing TH1 cell functions in colorectal cancer. 1085 98
