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: CAS:7440-70-2 (calcium)
333,191 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The CXC chemokine, IL-8, is a potent chemoattractant of neutrophils and binds to two distinct receptors, termed IL-8R1 and IL-8R2. These receptors share high affinity for IL-8, however, only IL-8R1 is specific for IL-8 whereas IL-8R2 binds other related chemokines, including GRO alpha with high affinity. Stable Jurkat transfectants were generated expressing either functional IL-8R1 or IL-8R2 (J-IL8R1 and J-IL8R2). Both J-IL8R1 and J-IL8R2 exhibited high affinity IL-8 binding (Kd 3-5 nM) with respective receptor densities of 23,000 +/- 3,000 and 18,500 +/- 1,500. Pre-treatment of both transfectants with 1.0 micrograms/ml B. pertussis toxin (PTx) resulted in inhibition of IL-8 mediated intracellular Ca2+ mobilisation and chemotaxis, without altering the receptor's affinity for its ligand. This indicates that both receptors couple to a PTx-sensitive G-protein. Further studies showed that IL-8R1 and IL-8R2 could mediate time-dependent phosphorylation of p42/p44 MAP-kinase. In both transfectants, phosphorylation was maximal at 1-2 min after IL-8 stimulation and could be inhibited by PTx. Stimulation of J-IL8R1 and J-IL8R2 with GRO alpha revealed that this chemokine was a more potent activator of MAP-kinase in J-IL8R2, an observation reflected in the high affinity binding of GRO alpha to IL-8R2. These studies indicate that chemokines are capable of activating protein kinases and with regards to PTx-sensitivity and MAP-kinase stimulation, no significant differences between IL-8R1 and IL-8R2 post-receptor signalling occur during cell activation by IL-8.
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PMID:A comparison of post-receptor signal transduction events in Jurkat cells transfected with either IL-8R1 or IL-8R2. Chemokine mediated activation of p42/p44 MAP-kinase (ERK-2). 775 May 73

Using recombinantly expressed proteins and synthetic peptides, we examined the structural/functional features of the platelet chemokines, neutrophil-activating peptide-2 (NAP-2) and platelet factor 4 (PF4); that were important in their activation of neutrophils. Previous studies with the chemokine interleukin-8 (IL-8) had shown that the N-terminal region preceding the first cysteine residue was critical in defining neutrophil-activating properties. We examined whether NAP-2 and PF4 had similar structural requirements. In the Ale-glu-leu-arg (AELR) N-terminus of NAP-2, substitution of E or R abolished Ca2+ mobilization and elastase secretion. Unlike the parent molecule PF4, AELR/PF4, the hybrid formed by replacing the N-terminal sequence of PF4 before the first cysteine residue with the homologous sequence of NAP-2, stimulated Ca2+ mobilization and elastase secretion. Furthermore, the effect of amino acid substitutions in the ELR motif differed from those seen with NAP-2 in that conserved substitutions of E or R in NAP-2 abolished activity, but only reduced neutrophil activation in the hybrid. These studies show that just as with IL-8, the N-termini of NAP-2 and PF4 are critical for high-level neutrophil-activating function. Desensitization studies provided information on receptor binding. NAP-2, which binds almost exclusively to the type 2 IL-8 receptor (IL-8R), did not desensitize neutrophils to activation by IL-8 because IL-8 could bind to and activate via both type 1 and 2 IL-8R. AELR/PF4 appears to bind to both types of receptors because it desensitized neutrophils to NAP-2 activation; but was not desensitized by NAP-2, and because it desensitized to and was desensitized by IL-8. Thus, although NAP-2 and AELR/PF4 share approximately 60% amino acid homology, they have different receptor affinities. Studies were performed to define the role of the C-termini of these platelet chemokines in receptor binding. Heparin and a monoclonal antibody specific for the heparin-binding domain of PF4 both inhibited Ca2+ mobilization and elastase release, further suggesting that the C-terminus of these chemokines is important in receptor binding. Synthetic NAP-2(51-70) failed to mobilize Ca2+, whereas PF4(47-70) and PF4(58-70) induced Ca2+ mobilization and secretion of elastase at high concentrations. Pertussis toxin inhibited neutrophil activation by 40% to 50%, establishing a role for G-protein-coupled receptors such as the IL-8Rs in activation by the PF4 C-terminal peptides.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structural requirements of platelet chemokines for neutrophil activation. 791 50

We systematically converted each of the amino acids in the extracellular domain of the interleukin-8 (IL-8) type A receptor to alanine for the purpose of identifying amino acids contributing to IL-8 binding and IL-8-mediated signal transduction. We identified 20 mutations which cause a decrease in receptor affinity from a Kd of 2 nM to a Kd > or = 25 nM. We then analyzed these receptor mutants for their ability to mobilize intracellular calcium upon stimulation with 10 nM IL-8. The majority of the mutants were able to produce calcium fluxes at levels approximating that of wild-type IL-8 receptor A, with the exception of six mutants (R199A, R203A, C30A, C110A, C187A, and C277A) which showed no significant response. In addition, we performed calcium mobilization experiments to further characterize a series of previously constructed mutants which had only been characterized by their binding affinities in our previous report and found that mutant D265A showed no response upon stimulation with 10 nM IL-8. Our study shows that, besides the extracellular domain cysteines which may be critical for the overall folding of the receptor, three residues, Arg-199, Arg-203, and Asp-265, are important for IL-8 binding and IL-8-mediated signal transduction.
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PMID:Complete mutagenesis of the extracellular domain of interleukin-8 (IL-8) type A receptor identifies charged residues mediating IL-8 binding and signal transduction. 803 99

IL-8 mediates migration and activation of neutrophils. This study describes the functional and ligand binding specificity of the human intercrine peptides IL-8, neutrophil-activating peptide 2 (NAP-2), melanoma growth stimulatory activity (GRO), and platelet factor 4 (PF4) to rabbit neutrophils and mammalian cell lines transfected with rabbit IL-8 receptor cDNA (F3R). Rabbit neutrophil membranes bound 125I-labeled IL-8 and 125I-labeled NAP-2 but did not bind 125I-labeled GRO or 125I-labeled PF4. Rabbit neutrophils mobilized intracellular Ca2+ in response to IL-8 and NAP-2 but not to GRO or PF4. Monkey kidney cells (COS-7) and hamster lung fibroblasts (CCL-39) were transiently and stably transfected with the rabbit neutrophil IL-8 receptor F3R cDNA. COS-7 cells transfected with F3R cDNA bound 125I-labeled IL-8 but did not bind other IL-8-related peptides such as 125I-labeled NAP-2, 125I-labeled GRO, or 125I-labeled PF4. Furthermore, bound 125I-labeled IL-8 was only displaced by unlabeled IL-8 but not by unlabeled NAP-2, GRO alpha, or PF4. Consistent with this observation, stably transfected CCL 39 cells expressing F3R cDNA mobilized Ca2+ only in response to IL-8. We conclude that F3R cDNA encodes a functional IL-8 receptor isotype with strict ligand binding specificity for IL-8, that rabbit neutrophils do not bind human GRO alpha, and it is suggested that rabbit neutrophils contain in addition to the F3R protein another IL-8 receptor isotype with broad ligand specificity or a distinct NAP-2 receptor.
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PMID:Functional and ligand binding specificity of the rabbit neutrophil IL-8 receptor. 813 60

Interleukin-8 (IL-8) mediates the transendothelial migration and activation of neutrophils to the site of inflammation. Two human IL-8 receptor isotype (A and B) and one rabbit IL-8 receptor isotype (A) cDNAs have been previously cloned and characterized on the basis of their pharmacological profile. Human and rabbit IL-8 receptor subtype A binds IL-8 and structurally related peptide melanoma growth-stimulating activity (MGSA) and neutrophil-activating peptide-2 (NAP-2) according to the following affinity binding profile: IL-8 >>> MGSA > NAP-2, whereas the human IL-8 receptor subtype B profile is IL-8 = MGSA > NAP-2 (LaRosa, G., Thomas, K. M., Kaufmann, M., Mark, R., White, M., Taylor, L., Gray, G., Witt, D., and Navarro, J. (1992) J. Biol. Chem. 267, 25402-25406). In this study, we isolated a cDNA clone (5B1a) from a rabbit neutrophil library encoding a G-protein-coupled receptor of the interleukin-8 receptor family. The 5B1a clone encodes a 358-amino acid protein exhibiting 80% amino acid identity to the human IL-8 receptor B, 74% to the rabbit IL-8 receptor A, and 73% to the human IL-8 receptor A. Tissue distribution by Northern blot analysis reveals that the 5B1a mRNA is expressed preferentially in neutrophils. In contrast to previously described IL-8 receptors, the 5B1a receptor exhibited specific 125I-IL-8 binding with a novel affinity binding profile of IL-8 >> NAP-2 > MGSA. The corresponding apparent Ki values for IL-8, NAP-2, and MGSA were 4, 120, and 320 nM, respectively. IL-8 induced intracellular calcium mobilization and desensitization in Chinese hamster ovary cells stably transfected with 5B1a, indicating that this cDNA encodes a functional IL-8 receptor. Sequence analysis of the 5B1a protein with other IL-8 receptor subtypes within the framework of their pharmacological profile reveals putative structural motifs that may correspond to the ligand binding site of the IL-8 receptor.
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PMID:Molecular characterization of a novel rabbit interleukin-8 receptor isotype. 817 42

The class II IL-8 receptor (IL-8R) binds both melanoma growth stimulatory activity (MGSA) and IL-8 with high affinity. Reverse transcriptase polymerase chain reaction demonstrates that the class II IL-8R mRNA, which has previously been detected only in cells of hematopoietic lineage, is also expressed in non-hematopoietic cell types shown to respond to MGSA or IL-8. To study the signaling mechanism by MGSA through the class II IL-8R in non-hematopoietic cells, this receptor was overexpressed in the 3ASubE human placental and the 293 human kidney cell lines. Membrane preparations of the class II IL-8R expressing 3ASubE transfectants exhibited a 2.3 +/- 0.2-fold increase in GTP gamma 35S binding, which was sensitive to pertussis toxin, in response to MGSA treatment (0.2 microM). This MGSA response was not observed in cells transfected with the parental expression vector. In vivo phosphorylation studies demonstrated that the class II IL-8R was basally phosphorylated in the untreated transfectants, and MGSA (5 nM) treatment markedly enhanced the phosphorylation of this receptor. The MGSA-induced receptor phosphorylation was both time and concentration dependent and could be mimicked by treatment with the calcium ionophore A23187. Phosphoamino acid analysis indicated that the MGSA-induced receptor phosphorylation was on serine residue(s), suggesting that a serine kinase is activated in response to MGSA binding to the class II IL-8R in non-hematopoietic cells.
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PMID:Melanoma growth stimulatory activity enhances the phosphorylation of the class II interleukin-8 receptor in non-hematopoietic cells. 829 49

The interaction of interleukin 8 (IL-8) with heparin was studied by using synthetic IL-8 analogs with C- and N-terminal truncations. Elimination of the N-terminal region preceding the first cysteine, which constitutes the IL-8 receptor binding site, did not affect the affinity to heparin-Sepharose. Affinity, however, decreased with progressive truncation at the C terminus, and no binding was observed when the C-terminal alpha-helix was eliminated. The effect of heparin and other glycosaminoglycans on IL-8 activity was also tested. When IL-8 was applied together with heparan sulfate, neutrophil chemotaxis in vitro was enhanced up to 4-fold, and the stimulus-dependent increase in cytosolic free Ca2+ increased markedly in both rate and peak value. Heparin had a similar effect on the Ca2+ response but did not enhance chemotaxis. The glycosaminoglycans by themselves did not elicit neutrophil responses. Their enhancing effect was restricted to stimulation with IL-8 and was not observed when the unrelated chemoattractant fMet-Ile-Phe-Leu was used as the stimulus. Elastase released from stimulated neutrophils was inhibited by heparin, heparan sulfate, and, to a lesser extent, chondroitin sulfate B, confirming previous observations. Taken together, these results suggest that heparan sulfate, which is present on the endothelial cell surface and in the basement membrane, may have a dual function in diapedesis, promotion of IL-8-dependent transmigration of neutrophils, and protection of the tissue microenvironment from damage by lytic enzymes released from the migrating cells.
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PMID:Binding to heparan sulfate or heparin enhances neutrophil responses to interleukin 8. 834 30

Human melanoma growth stimulating activity (MGSA) is a mitogenic factor first identified in the conditioned media of human melanoma cells. Structurally, MGSA belongs to a superfamily of proteins that includes interleukin-8 (IL-8) and platelet factor 4. These proteins are involved in inflammatory processes, and an understanding of their mechanism of action should provide insight into their pathophysiology. In this study, we report the high level expression of recombinant human MGSA in Escherichia coli. The structure was confirmed by mass spectrometry and NH2-terminal amino acid sequencing. Receptor binding studies were carried out in a human melanoma cell line, Hs294T, and in U937 cells. Direct binding experiments with 125I-MGSA in Hs294T cells have allowed us to identify a novel MGSA receptor in these cells, with a KD of 3.9-4.25 nM and approximately 52,960-67,758 binding sites/cell. These MGSA-binding sites were specific and could not be displaced by unlabeled IL-8. The MGSA receptor in these cells is biologically active, and the addition of ligand induces cellular proliferation in a dose-dependent manner. In U937 cells, unlabeled IL-8 and MGSA were able to completely displace radiolabeled IL-8. Scatchard analysis of the displacement binding data was consistent with binding to a single class of binding sites, and the calculated KD values were 2.4 +/- 0.6 nM for IL-8 and 3.2 +/- 0.80 nM for MGSA. Treatment of U937 cells with IL-8 or MGSA produced a rapid increase in Ca2+ flux; however, subsequent incubation with either ligand failed to produce any further Ca2+ flux. The IL-8 receptor in U937 cells was covalently labeled with 125I-IL-8 to reveal a protein with a molecular mass of 69 kDa.
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PMID:Purification, receptor binding analysis, and biological characterization of human melanoma growth stimulating activity (MGSA). Evidence for a novel MGSA receptor. 838 Jan 67

Interleukin-8 (IL-8), a member of the family of small inducible cytokines, is mainly known for its striking neutrophil-activating properties. Constitutive IL-8 production is negligible in normal leukocytes. We examined expression of IL-8 and its receptor in purified leukemic cells from patients with untreated acute myeloblastic leukemia (AML) and lymphoid leukemias. In the majority of cases (18 of 26 AML, 8 of 15 lymphoid leukemias), the cells constitutively expressed IL-8 mRNA transcripts. In all but 3 of these cases, IL-8 mRNA-expressing cells secreted biologically active IL-8 protein. Immunocytochemical analysis showed intracellular IL-8 (5% to 90% of total cells), demonstrating that the leukemic cells themselves rather than contaminants (monocytes or lymphocytes) were the source of IL-8. Ten of 25 AML samples expressed IL-8 receptor mRNA and, with 1 exception, the IL-8 receptor expressing cells also produced its ligand. In contrast, all lymphoid leukemias were negative. Furthermore, frequent coexpression of IL-8 and IL-1 beta transcripts was seen in both AML and lymphoid leukemia samples, whereas fewer cases coexpressed IL-8 and either macrophage colony-stimulating factor or granulocyte-macrophage colony-stimulating factor. In leukemic cells expressing the IL-8 receptor, IL-8 induced cytosolic free calcium changes, indicating activation of the classical signaling pathway. These results suggest that IL-8 may have biologic activities in hematopoiesis.
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PMID:Constitutive expression of interleukin-8 and its receptor in human myeloid and lymphoid leukemia. 840 Feb 99

Interleukin-8 (IL-8), one of the major mediators of the inflammatory response, belongs to a family of chemokines that includes NAP-2 (neutrophil-activating peptide-2) and Gro-alpha and whose biological activities are directed to a great extent toward neutrophils. Two distinct receptors have been described with overlapping, but not identical, binding affinities for IL-8, NAP-2, and Gro-alpha. This study was designed to examine the intracellular pathways activated upon the occupation of each of the IL-8 receptors (IL-8R). The formation of a physical coupling between IL-8 receptors and the alpha-subunit of heterotrimeric G proteins was tested in neutrophils by examining the presence of the former in anti-Galpha immune precipitates. The addition of IL-8 to a suspension of human neutrophils led to a time-dependent detection of IL-8 in anti-Gi2alpha (raised against amino acids 159-168 (LERIAQSDYI) of Gi2alpha) and anti-Gtalpha (raised against the COOH-terminal 10 amino acids (KENLKDCGLF) of Gtalpha), but not anti-Gq, immunoprecipitates. Similar results were obtained in human 293 cells stably transfected with IL-8RA or IL-8RB. The peptide derived from the COOH-terminal sequence of Gt inhibited the co-immunoprecipitation of IL-8R and Gi observed in response to the anti-Gtalpha and anti-Gi2alpha antibodies. On the other hand, the Gi2alpha peptide only inhibited the immunoprecipitation induced by the anti-Gi2alpha antibody. Peptides derived from Gi1alpha or Gi3alpha had no effect in this assay. The introduction of the anti-Gi2alpha or anti-Gtalpha antibodies or their neutralizing peptides, but not the Gi1alpha or Gi3alpha peptides, into 293 IL-8RA or 293 IL-8RB cells completely blocked the calcium responses obtained upon stimulation with IL-8. These results demonstrate that the occupation of either type of IL-8 receptor leads to a physical coupling to the alpha-subunit of Gi2. In addition, the use of the subunit-specific peptides identified two functionally important but distinct regions of Gialpha, one involved in receptor/Gialpha interaction (KENLKDCGLF) and the other mediating downstream signal transmission (LERIAQSDYI). Finally, the results of this study also validate the use of the transfected 293 cell line as a model for the study of the signal transduction pathway(s) initiated by IL-8.
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PMID:Physical association of Gi2alpha with interleukin-8 receptors. 866 98


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