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:P10145 (IL-8)
23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MCP-3 is a beta chemokine consisting of 76 amino acid residues. It has been described to be involved in the activation of all leukocytic cells, activation mediated by the presence of multiple binding sites on the target cells. Its three-dimensional structure has been studied by making use of two-dimensional 1H NMR spectroscopy. MCP-3 exhibits the same monomeric structure as the other chemokines, i.e., a three-stranded antiparallel beta sheet covered on one face by an alpha helix. Although it belongs to the same subfamily as RANTES (Chung et al., 1995; Faitbrother et al., 1994) and hMIP-1beta (Lodi et al., 1994), the MCP-3 dimer is folded like IL-8 with the so-called alphabeta sandwich structural motif. Structural and sequence analysis gives clear indications suggesting that the other MCP chemokines may have the same quaternary structure, contrary to the other beta chemokines.
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PMID:Determination of the three-dimensional structure of CC chemokine monocyte chemoattractant protein 3 by 1H two-dimensional NMR spectroscopy. 910 48

Rat CINC/Gro is a 72 residue chemotactic factor of neutrophils, and a member of the CXC chemokine family, that includes IL-8 and MGSA/GRO. Although the three-dimensional structure of CINC/Gro had previously been determined to be that of a dimer with 200 mM NaCl, it was shown on both ultracentrifugation analysis and 1H-NMR spectral analysis that CINC/Gro exists mainly as a monomer at a physiological concentration, similar to other proteins belonging to this family. By reducing the NaCl concentration, the equilibrium could be shifted to the monomer, making it possible to observe the monomer and dimer resonances in 1H-NMR spectra. There were no significant chemical shift changes of alpha protons in the beta sheet between the monomer and dimer, suggesting that the beta sheet structure was retained in the monomer. Instead, the chemical shift changes of a protons were significant at I18 and K21, which are located in the long loop region interacting with the alpha helix, and V59 at the beginning of the a helix, indicating structural changes in the relative positions of the alpha helix and beta sheet.
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PMID:Subunit association and monomer structure of CINC/Gro revealed by 1H-NMR. 919 22

The solution structure of murine macrophage inflammatory protein-2 (MIP-2), a heparin-binding chemokine that is secreted in response to inflammatory stimuli, has been determined using two-dimensional homonuclear and heteronuclear NMR spectroscopy. Structure calculations were carried out by means of torsion-angle molecular dynamics using the program X-PLOR. The structure is based on a total of 2390 experimental restraints, comprising 2246 NOE-derived distance restraints, 44 distance restraints for 22 hydrogen bonds, and 100 torsion angle restraints. The structure is well-defined, with the backbone (N, Calpha, C) and heavy atom atomic rms distribution about the mean coordinates for residues 9-69 of the dimer being 0.57 +/- 0.16 A and 0.96 +/- 0.12 A, respectively. The N- and C-terminal residues (1-8 and 70-73, respectively) are disordered. The overall structure of the MIP-2 dimer is similar to that reported previously for the NMR structures of MGSA and IL-8 and consists of a six-stranded antiparallel beta-sheet (residue 25-29, 39-44, and 48-52) packed against two C-terminal antiparallel alpha-helices. A best fit superposition of the NMR structure of MIP-2 on the structures of MGSA, NAP-2, and the NMR and X-ray structures of IL-8 are 1.11, 1.02, 1.27, and 1.19 A, respectively, for the monomers, and 1.28, 1.10, 1.55, and 1.36 A, respectively, for the dimers (IL-8 residues 7-14 and 16-67, NAP-2 residues 25-84). At the tertiary level, the main differences between the MIP-2 solution structure and the IL-8, MGSA, and NAP-2 structures involve the N-terminal loop between residues 9-23 and the loops formed by residues 30-38 and residues 53-58. At the quaternary level, the difference between MIP-2 and IL-8, MGSA, or NAP-2 results from differing interhelical angles and separations.
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PMID:Solution structure of murine macrophage inflammatory protein-2. 962 82

The combined CH(2)Cl(2) and MeOH crude extract of a new species of the marine sponge Dysidea, collected in Northern Australia was found to inhibit the binding of [I125] interleukin-8 [IL-8] to the human recombinant IL-8 receptor type A at 500 microg/mL. Bioassay-guided fractionation led to the isolation of three new polyoxygenated sterols 3, 4, and 5. Their structures were assigned on the basis of 1D and 2D NMR experiments, and relative stereochemistries were established by ROESY correlations and analysis of coupling constants. The IC(50) values for inhibition of IL-8Ra for sterols 3, 4, and 5 were 20, 5.5, and 4.5 microM, respectively.
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PMID:Polyoxygenated dysidea sterols that inhibit the binding of [I125] IL-8 to the human recombinant IL-8 receptor type A. 1084 93

This study characterizes the calcium-bound CR I-II domain (residues 1-100) of rat calretinin (CR). CR, with six EF-hand motifs, is believed to function as a neuronal intracellular calcium-buffer and/or calcium-sensor. The secondary structure of CR I-II, defined by standard NMR methods on 13C,15N-labeled protein, contains four helices and two short interacting segments of extended structure between the calcium-binding loops. The linker between the two helix-loop-helix, EF-hand motifs is 12 residues long. Limited trypsinolysis at K60 (there are 10 other K/R residues in CR I-II) confirms that the linker of CR I-II is solvent-exposed and that other potential sites are protected by regular secondary structure. 45Ca-overlay of glutathione S-transferase (GST)-CR(1-60) and GST-CR(61-100) fusion proteins confirm that both EF-hands of CR I-II have intrinsic calcium-binding properties. The primary sequence and NMR chemical shifts, including calcium-sensitive glycine residues, also suggest that both EF-hand loops of CR I-II bind calcium. NMR relaxation, analytical ultracentrifugation, chemical cross-linking and NMR translation diffusion measurements indicate that CR I-II exists as a monomer. Calb I-II (the homologous domain of calbindin D28k) has the same EF-hand secondary structures as CR I-II, except that helix B is three residues longer and the linker has only four residues [Klaus, W., Grzesiek, S., Labhardt, A. M., Buckwald, P., Hunziker, W., Gross, M. D. & Kallick, D. A. (1999) Eur. J. Biochem. 262, 933-938]. In contrast, Calb I-II binds one calcium cation per monomeric unit and exists as a dimer. Despite close homology and similar secondary structures, CR I-II and Calb I-II probably have distinct tertiary structure features that suggest different cellular functions for the full-length proteins.
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PMID:Structural and biochemical characterization of neuronal calretinin domain I-II (residues 1-100). Comparison to homologous calbindin D28k domain I-II (residues 1-93). 1173 19

The structure of IP-10 was solved by NMR spectroscopy and represents the first structure from the class of agonists toward the receptor CXCR3. CXCR3 binding chemokines are unique in their ability to bind receptors from both the CC and CXC classes of chemokine receptors. An unusual structural feature of IP-10 was identified that may provide the basis for the ability of IP-10 to bind both CXCR3 and CCR3. The surface of IP-10 that interacts with the N-terminus of CXCR3 was defined by monitoring changes in the NMR spectrum of IP-10 upon addition of a CXCR3 N-terminal peptide. These studies indicated that the interaction involves a hydrophobic cleft, formed by the N-loop and 40s-loop region of IP-10, similar to the interaction surface observed for other chemokines such as IL-8. An additional region of interaction was observed that consists of a hydrophobic cleft formed by the N-terminus of IP-10 and 30s-loop of IP-10.
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PMID:The CXCR3 binding chemokine IP-10/CXCL10: structure and receptor interactions. 1217 28

DNA polymerase lambda (pol lambda) is a recently discovered nuclear enzyme belonging to the pol X family of DNA polymerases that exhibits a 32% sequence identity with the nuclear DNA repair protein, pol beta. Structural modeling suggests that pol lambda contains the palm, fingers, thumb, and 8 kDa lyase domains present in pol beta, as well as an additional N-terminal BRCT domain and a serine-proline-rich linker that are presumably involved in protein-protein interactions. The 8 kDa domain of pol beta is important for DNA binding and contains the dRP lyase activity, which is the rate-limiting step in the single-nucleotide base excision repair (BER) pathway of damaged DNA. Recently, it was shown that the 8 kDa domain of pol lambda also contains the dRP lyase activity. To gain further insight into the catalytic mechanism of dRP removal by pol lambda, we have determined the solution structure of the 8 kDa lyase domain of human DNA pol lambda via multidimensional NMR methods and the ARIA program. The resulting structures exhibited a high degree of similarity with the 8 kDa lyase domain of pol beta. Specifically, the side chains of residues W274, R275, Y279, K307, R308, and K312 are in similar positions to the functionally important side chains of residues H34, K35, Y39, K60, K68, and K72 in the 8 kDa lyase domain of pol beta. This suggests that, on the basis of the proposed roles of these residues in pol beta, the corresponding pol lambda side chains may be involved in DNA binding and dRP lyase activity. The structural alignment of W274 (pol lambda) with H34 (pol beta) indicates that the former is probably involved in a similar base stacking interaction with template DNA at the position of the gap, in contrast with several previous proposals which aligned D272 with H34. In a few cases for which there is a nonconservative substitution in the sequence alignment, a structural comparison shows a positionally and, hence, probably a functionally equivalent residue, e.g., K60 in pol beta and K307 in pol lambda. Additionally, on the basis of the structural alignment obtained, several previously proposed mechanistic hypotheses can be evaluated.
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PMID:Solution structure of the lyase domain of human DNA polymerase lambda. 1291 Dec 98

CXCL11 (ITAC) is one of three chemokines known to bind the receptor CXCR3, the two others being CXCL9 (Mig) and CXCL10 (IP-10). CXCL11 differs from the other CXCR3 ligands in both the strength and the particularities of its receptor interactions: It has a higher affinity, is a stronger agonist, and behaves differently when critical N-terminal residues are deleted. The structure of CXCL11 was determined using solution NMR to allow comparison with that of CXCL10 and help elucidate the source of the differences. CXCL11 takes on the canonical chemokine fold but exhibits greater conformational flexibility than has been observed for related chemokines under the same sample conditions. Unlike related chemokines such as IP-10 and IL-8, ITAC does not appear to form dimers at millimolar concentrations. The origin for this behavior can be found in the solution structure, which indicates a beta-bulge in beta-strand 1 that distorts the dimerization interface used by other CXC chemokines.
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PMID:NMR structure of CXCR3 binding chemokine CXCL11 (ITAC). 1527 3

We have recently demonstrated that the cell wall beta-glucan of Candida albicans could be solubilized by sodium hypochlorite, followed by dimethylsulfoxide-extraction (NaClO-DMSO method). In this study, applying this method to Aspergillus spp., we prepared mycelial cell wall beta-glucan and examined its physical properties and immunotoxicological activity. The acetone-dried mycelia of Aspergillus spp. were oxidized by the NaClO-DMSO method. An analysis of (13)C NMR spectra revealed the preparations to be composed of alpha-(1 --> 3) and beta-(1 --> 3)-D-glucan. Also, the proportion of alpha-(1 --> 3) and beta-(1 --> 3)-D-glucan varied. Furthermore, a solubilized Aspergillus beta-glucan (ASBG) was prepared from OX-Asp by urea-autoclave treatment. ASBG showed limulus activity similar to Candida solubilized beta-glucan (CSBG), and there was little difference in the activity of ASBG between various Aspergillus spp. ASBG affected the production of IL-8 by human peripheral blood mononuclear cells (PBMC). ASBG should be useful for analyzing the clinical role of beta-glucan.
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PMID:The solubilization and biological activities of Aspergillus beta-(1 --> 3)-D-glucan. 1536 99

Investigation of the aerial parts of Vernonia triflosculosa afforded three hirsutinolides of which 8alpha-(4alpha-hydroxymethacryloyloxy)-10alpha-hydroxy-1,13-dimethoxy-hirsutinolide is new, three ent-kaurane diterpenes, among which the 19-[alpha-L-arabinopyranosyl-(1-->2)-beta-D-glucopyranosyl] esters of 16beta-hydroxy-ent-kauran-19-oic acid and of 16beta,17-hydroxy-ent-kauran-19-oic acid are also new. Diterpenes are reported here for the first time in the large genus Vernonia. Their structures were elucidated using 1D and 2D NMR measurement as well as ESI, CIMS, and HRMS analysis. Two hirsutinolides were studied for their NF-kappaB DNA binding activity in HaCaT cells (a human cell line similar to keratinocytes) and for their inhibition on IL-8 production in HeLa cells.
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PMID:Ent-kaurane glycosides and sesquiterpene lactones of the hirsutinolide type from Vernonia triflosculosa. 1612 64


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