Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Human interleukin 2 (IL-2) analogs with defined amino acid substitutions were used to identify specific residues that interact with the 55-kDa subunit (p55) or alpha chain of the human IL-2 receptor. Analog proteins containing specific substitutions for Lys-35, Arg-38, Phe-42, or Lys-43 were inactive in competitive binding assays for p55. All of these analogs retained substantial competitive binding to the intermediate-affinity p70 subunit (beta chain) of the receptor complex. The analogs varied in ability to interact with the high-affinity p55/p70 receptor. Despite the lack of binding to p55, all analogs exhibited significant biological activity, as assayed on the murine CTLL cell line. The dissociation constants of Arg-38 and Phe-42 analogs for p70 were consistent with intermediate-affinity binding; the Kd values were not significantly affected by the presence of p55 in binding to the high-affinity IL-2 receptor complex. These results confirm the importance of the B alpha-helix in IL-2 as the locus for p55-receptor binding and support a revised model of IL-2-IL-2 receptor interaction.
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PMID:Localization in human interleukin 2 of the binding site to the alpha chain (p55) of the interleukin 2 receptor. 205 47

We recently reported that the myristoylated peptide N-myristoyl-Lys-Arg-Thr-Leu-Arg (N-m-KRTLR) is a novel protein kinase C inhibitor. In this study, we investigated the biological effects of N-m-KRTLR using as an in vitro model the induction of the IL-2 receptor and IL-2 secretion by Jurkat cells in response to stimulation with 12-O tetradecanoylphorbol-13-acetate (TPA) plus phytohemagglutinin (PHA) and TPA plus OKT3 mAb. N-m-KRTLR significantly suppressed induction of the IL-2 receptor on the surface of the Jurkat cells by TPA plus either PHA or OKT3 mAb. Furthermore, N-m-KRTLR inhibited the production and release of IL-2 from cultured Jurkat cells stimulated with TPA plus either PHA or OKT3 mAb. Similarly, this peptide significantly inhibited the IL-2 production in normal human peripheral blood mononuclear cells in response to stimulation by TPA and PHA. In contrast, this peptide did not affect expression of the CD3 complex on the surface of the Jurkat cells either alone or in the presence of TPA or PHA. Furthermore, N-m-KRTLR did not interfere with the spontaneous proliferation of the Jurkat cells, and its effects on IL-2 secretion and IL-2 receptor expression in the Jurkat cells were evident without loss of cell viability. These results suggest that the novel protein kinase C inhibitor N-m-KRTLR may selectively inhibit certain activation pathways of Jurkat cells and indicate the usefulness of N-m-KRTLR in the analysis of discrete events in T cell activation.
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PMID:Inhibition of IL-2 receptor induction and IL-2 production in the human leukemic cell line Jurkat by a novel peptide inhibitor of protein kinase C. 212 73

The present study was performed to localize in the IL-2 molecule the active site responsible for interaction with the IL-2 receptor. To predict the receptor binding site on the IL-2 molecule, a computer programme based on the hypothesis that the active site will contain parts of the protein molecule having a high tendency to form a bend was utilized. The tendency to form a bend was evaluated by assessing the probability of beta-turn occurrence; the highest probability was found in the tetrapeptide Asn-Pro-Lys-Leu, occupying the positions 33-36 of the IL-2 molecule. Accordingly, the hexadecapeptide H-Cys-Nle-Gly-Ile-Asn-Asn-Tyr-Lys-Asn-Pro-Lys-Leu-Thr-Arg-Met-Leu-NH2 that spans over the predicted tetrapeptide Asn-Pro-Lys-Leu and comprises the region 27-40 from the IL-2 amino acid sequence was synthesized. This synthetic (I-16) peptide was found to selectively inhibit the IL-2-dependent uptake of 3H-TDR by CTLL cells, apparently by competing with IL-2 for the IL-2 receptor. The synthetic I-16 hexadecapeptide was conjugated to carrier (BSA) protein and used for immunization of rabbits. Resulting I-16 antibodies were capable of binding specifically to the I-16 hexadecapeptide in indirect ELISA test; they reacted substantially with IL-2-producing but not with IL-2-non-producing Jurkat cells in indirect cell membrane immunofluorescence, and inhibited activation of killer spleen cells with human recombinant IL-2 as detected by 51Cr microcytotoxicity assay. Taken together, these results suggest that at least one of the receptor contact sites of the IL-2 is localized within the N-terminal part of the molecule in the region defined by amino acids 27-40 and coded for by the exon 1 and 2.
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PMID:Localization of a receptor binding site on the IL-2 molecule. 244 71

There has been considerable effort in chemically conjugating a variety of plant and bacterial toxins to monoclonal antibodies that are directed to surface antigens on target cells. Coupling has been mediated through disulfide linkage, and the resulting conjugates are known generically as immunotoxins. In general, there are a few shortfalls to this approach. For example, since it is clear that not all surface antigens are internalized, one cannot predict the fate of a given IT once bound to its determinant on the surface of a target cell. In addition, in most instances one must activate the amino moiety of lysine residues with a heterobifunctional reagent in order to form disulfide linkage between the ligand and toxophore components. Since the number of reactive groups may be large, the disulfide linked conjugate molecules most likely represent a family of isomeric molecules rather than a defined protein. As a result, one cannot readily manipulate the fine structure of an IT in order to probe the mechanism of toxophore entry into the target cell. The approach that our group has taken toward the development of targeted cytotoxins, however, differs in a fundamental way: Rather than chemically coupling the ligand with toxophore through a disulfide bond, we have turned to genetic engineering in order to create gene fusions whose chimeric products are joined through a peptide bond. Thus, we have genetically constructed a family of fusion genes in which the receptor binding domain of diphtheria toxin has been deleted and replaced with DNAs encoding either alpha-MSH or IL-2. In each instance, it was known that the polypeptide ligand component of the fusion protein bound to specific receptors on target cells and was internalized by receptor mediated endocytosis. We reasoned, therefore, that the substitution of the diphtheria toxin receptor binding domain by these ligands should result in the formation of 'new' toxins whose action should be targeted toward selected eukaryotic cells that expressed either the alpha-MSH or IL-2 receptor. As along as the ligand component was exposed on the surface of the chimeric toxin, the molecule should bind to its receptor and be drawn into the cell by receptor-mediated endocytosis. Since the toxin-related/peptide hormone fusion protein is the product of a chimeric gene, it is a single molecular species. This has allowed us to begin to probe by site-directed mutagenesis the structure of fragment B sequences that are required to facilitate the translocation of fragment A across the target cell membrane.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Diphtheria-related peptide hormone gene fusions: a molecular genetic approach to chimeric toxin development. 290 22

The recombinant human interleukin-2 (IL-2) receptor was expressed in mouse mammary epithelial cells following the transfection of these cells with an expression vector containing the human IL-2 receptor cDNA. The recombinant IL-2 receptor in these cells was rapidly phosphorylated in response to phorbol myristate acetate (PMA), but its phosphorylation could not be detected in the absence of PMA or upon addition of human IL-2. The C-terminal, cytoplasmic peptide domain of the IL-2 receptor, Gln-Arg-Arg-Gln-Arg-Lys-Ser-Arg-Arg-Thr-Ile, was synthesized and used as a substrate for protein kinase C. The Km for phosphorylation of the peptide by protein kinase C was 23 microM. The stoichiometry of phosphorylation was 1 mol of phosphate/mol of peptide and serine was the predominant amino acid phosphorylated. Because this peptide was a good substrate for protein kinase C in vitro, it was possible that the same serine (serine 247) was also phosphorylated in the receptor in the cell. The IL-2 receptor gene in the expression vector was therefore altered by site-directed mutagenesis to code for an IL-2 receptor containing an alanine in the place of serine 247. The IL-2 receptor expressed by these cells was not phosphorylated in the presence of PMA. These data suggest that protein kinase C, in response to PMA, phosphorylates the C-terminal serine residue (serine 247) in the human IL-2 receptor.
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PMID:Phosphorylation of the human interleukin-2 receptor and a synthetic peptide identical to its C-terminal, cytoplasmic domain. 308 77

We evaluated the biodistribution, pharmacokinetics, and generation of catabolites of an 18F- and 125I-labeled anti-Tac disulfide-stabilized Fv fragment (dsFv) in tumor-bearing nude mice. This dsFv is genetically engineered from a murine monoclonal antibody that recognizes the alpha subunit of the interleukin 2 (IL-2 alpha) receptor. Labeling was performed with 18F using N-succinimidyl 4-([18F]fluoromethyl)benzoate or with 125I using the Iodo-Gen method. The immunoreactivities of the radiolabeled anti-Tac dsFv were > 82%. The biodistribution was evaluated (at 15, 45, and 90 min and 6 h) in athymic nude mice (approximately five/group) bearing s.c. tumor xenografts. Cell line A431 served as the IL-2 receptor-negative control tumor, whereas the ATAC4 cell line served as our IL-2 receptor-positive tumor. Animals received injections of 18F-labeled anti-Tac dsFv (0.7-1.4 megabecquerels/1.5-3 micrograms) and 125I-labeled anti-Tac dsFv (0.1-0.4 megabecquerels/0.9-1 microgram). Blood clearance for both preparations was rapid, with < 10% retained in the blood by 15 min. Maximum accumulation in ATAC4 tumors occurred between 45 and 90 min and peaked at a mean of 4.2% injected dose/g (18F) and 5.6% of injected dose/g (125I). At 6 h, the ATAC4 tumors contained 11 times more 18F and 3 times more 125I than did the A431 tumors. The ATAC4 tumor:blood ratios for the 18F and 125I were > 12:1 and > 1.4:1 at 6 h, respectively, whereas the ratios for the antigen-negative A431 tumor were less than 1. The kidneys were the major route of elimination. Catabolites appeared quickly and were identified as [125I]iodide and predominantly N-epsilon-[18F]4-fluoromethylbenzoyl(alpha-N-acetyl) lysine. This is the first study to evaluate the biodistribution of an 18F-labeled Fv fragment in vitro and in vivo. In vivo, the dsFv was taken up rapidly by the kidneys, producing lysine-containing catabolites for 18F-labeled dsFv and [125I]iodide for 125I-labeled dsFv.
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PMID:Biodistribution of 18F- and 125I-labeled anti-Tac disulfide-stabilized Fv fragments in nude mice with interleukin 2 alpha receptor-positive tumor xenografts. 758 95

This report addresses the role of individual IL-2 binding proteins of the IL-2 receptor in the stimulation of cell proliferation by IL-2. Murine IL-3-dependent cell lines were established which expressed the human p75 IL-2-binding protein, in the absence or presence of the human p55 IL-2-binding protein. Whereas p75 expression was sufficient to confer response to an intermediate (half-maximal stimulation at 100 pM) concentration of IL-2, additional expression of p55 increased the sensitivity of the cells to half-maximal stimulation at 10 pM IL-2. A mutant IL-2 molecule, Lys-20 IL-2 which is known to be defective of p75 interaction, was unable to stimulate cells expressing only p75: p55 co-expression could restore its activity. Under conditions of low p75 expression, Lys-20 IL-2 could act as an antagonist of wild-type IL-2 action. These data support a role for p55 in the enhancement of responsiveness to IL-2.
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PMID:The role of IL-2 interaction with p75 and p55 receptor molecules in the stimulation of cell proliferation. 831 57

Mutation of Asp20 in human interleukin-2 (IL-2) to Lys is known to result in an IL-2 molecule with unchanged binding to the p55 subunit of the IL-2 receptor, but with greatly decreased affinity for the p75 subunit (Collins, L., Tsien, W.-H., Seals, C. et al. Proc. Natl. Acad. Sci USA 1988. 85: 7709). Here we demonstrate that Lys20 IL-2 competed with a reduced (10-fold) affinity for high-affinity IL-2 receptors on two murine cell lines HT2 and CTLL. In parallel with this difference in receptor interaction, Lys20 IL-2 stimulated half-maximal HT2 cell proliferation at a 10-fold higher concentration than wild-type IL-2. However, half-maximal stimulation of CTLL cells required a 100-fold higher concentration of Lys20 IL-2. A similar 100-fold reduction in bioactivity of Lys20 IL-2 was observed for primary, activated, human or murine lymphocytes. Anti-p55 antibodies increased the concentration of Lys20 IL-2 required to stimulate HT2 cells to that required for CTLL cells. These data suggest that CTLL cells, while able to bind Lys20 IL-2 with high affinity, are lacking a p55-dependent function necessary for optimal stimulation. Therefore, p55 has a dual role, being important both for high-affinity IL-2 binding and for optimal cell triggering.
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PMID:Mutation of Asp20 of human interleukin-2 reveals a dual role of the p55 alpha chain of the interleukin-2 receptor. 845 77

Cassette and deletion mutagenesis were used to analyze the function of the amphipathic alpha-helices in the transmembrane domain of DAB389-interleukin-2 (IL-2), a fusion protein which is targeted to the interleukin-2 receptor. We demonstrate that the in-frame deletion of 60 amino acids, from Asn204 to Glu263 in DAB389-IL-2, results in complete loss of cytotoxic activity, whereas when the amphipathic regions from Asp208 to Ser220 and Ala244 to His258 are replaced with idealized amphipathic helices composed of repeating Glu, Lys, and Leu residues, the mutant fusion toxin has low but detectable activity. DAB389-IL-2 and both variants form channels in artificial phospholipid bilayers with conductances identical to those formed by diphtheria toxin. Both mutant fusion toxins bind to the high affinity IL-2 receptor with affinities similar to that of DAB389-IL-2. The fact that these mutants have markedly reduced or absent cytotoxic activity, but possess "wild type" catalytic activity, binding affinities, and channel conductances, suggests the existence of a step in the intoxication pathway, defective in the mutants, which occurs after DAB389-IL-2 binds to the IL-2 receptor. It is unknown whether this step occurs prior or subsequent to channel formation, but it is essential for the efficient delivery of the ADP-ribosyltransferase from DAB389-IL-2 to the cytosol of target cells.
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PMID:Structure/function analysis of the transmembrane domain of DAB389-interleukin-2, an interleukin-2 receptor-targeted fusion toxin. The amphipathic helical region of the transmembrane domain is essential for the efficient delivery of the catalytic domain to the cytosol of target cells. 850 30

Chemotactic factors such as cytokines and chemokines direct the migration of leukocytes into inflammatory sites. Chemokines play a role regulating both the expression and adhesive properties of leukocyte integrins. We have recently described an additional function of chemokines in the induction of cell polarization and adhesion receptor redistribution during the initial step of leukocyte locomotion. We herein report that interleukin (IL)-15, a newly described cytokine with chemotactic properties, is able to induce uropod formation on T lymphoblasts to which intercellular adhesion molecule (ICAM)-3, a leukocyte-restricted counter-receptor for the lymphocyte function-associated antigen (LFA)-1 integrin, is redistributed. Other adhesion molecules, such as ICAM-1, ICAM-2, CD43 and CD44, also redistributed to the uropod, although in a lower proportion of the cells. The induction of uropod formation by IL-15 was observed on T lymphoblasts adhering to the integrin ligands fibronectin, vascular cell adhesion molecule (VCAM)-1 and ICAM-1, but not to bovine serum albumin or poly-L-lysine. The effect of IL-15 was dose dependent and specifically inhibited by a monoclonal antibody (mAb) against this cytokine. Blocking experiments with anti-IL-2 receptor beta chain mAb showed an inhibitory effect on IL-15-mediated redistribution of ICAM-3, whereas no effect was observed in the presence of anti-IL-2 receptor alpha chain mAb. The uropod induced by IL-15 is enriched in many different adhesion receptors and, being well exposed to the external milieu, is likely to modulate the adhesive properties of lymphocytes.
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PMID:Interleukin-15 induces adhesion receptor redistribution in T lymphocytes. 864 9


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