Enzymatic and DNA binding properties of purified WRN protein: high affinity binding to single-stranded DNA but not to DNA damage induced by 4NQO.
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Mutations in the WRN gene result in Werner syndrome, an autosomal recessive disease in which many characteristics of aging are accelerated. A probable role in some aspect of DNA metabolism is suggested by the primary sequence of the WRN gene product. A recombinant His-tagged WRN protein (WRNp) was overproduced in insect cells using the baculovirus system and purified to near homogeneity by several chromatographic steps. This purification scheme removes both nuclease and topoisomerase contaminants that persist following a single Ni(2+)affinity chromatography step and allows for unambiguous interpretation of WRNp enzymatic activities on DNA substrates. Purified WRNp has DNA-dependent ATPase and helicase activities consistent with its homology to the RecQ subfamily of proteins. The protein also binds with higher affinity to single-stranded DNA than to double-stranded DNA. However, WRNp has no higher affinity for various types of DNA damage, including adducts formed during 4NQO treatment, than for undamaged DNA. Our results confirm that WRNp has a role in DNA metabolism, although this role does not appear to be the specific recognition of damage in DNA. (+info)
Preparation of recombinant rat interleukin-5 by baculovirus expression system and analysis of its biological activities.
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Rat interleukin-5 (IL-5) cDNA was subcloned from peritoneal cells collected 4 h after intraperitoneal injection of Ascaris suum antigen solution into the immunized rats. Cysteine proteinase-deleted (CPd) rat IL-5 recombinant virus was constructed by inserting rat IL-5 cDNA into CPd virus having a deletion in the cysteine proteinase gene of the silkworm Bombyx mori nuclear polyhedrosis virus. On infection with the CPd rat IL-5 recombinant virus, the silkworm B. mori larvae produced rat IL-5 as a dimeric form in hemolymph. Recombinant rat IL-5 was purified more than 95.5% by anion-exchange chromatography and hydrophobic chromatography. The purified recombinant rat IL-5 promoted the proliferation of T88-M cells in a concentration-dependent manner, and its effect was inhibited by an anti-murine IL-5 neutralizing polyclonal antibody. When bone marrow cells from normal rats were incubated with recombinant rat IL-5 in medium containing methylcellulose, the colony formation by eosinophilic cells was induced. Furthermore, when rat peritoneal eosinophils were incubated with recombinant rat IL-5, the spontaneous decrease in the eosinophil viability was inhibited in time- and concentration-dependent manners. In addition, the recombinant rat IL-5-induced eosinophil survival was inhibited by an anti-murine IL-5 neutralizing polyclonal antibody. These findings suggest that rat IL-5 acts as B-cell growth factor II (BCGF-II), eosinophil differentiation factor (EDF), and eosinophil survival-enhancing factor. (+info)
Steroid receptor coactivator-1 (SRC-1) enhances ligand-dependent and receptor-dependent cell-free transcription of chromatin.
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Progesterone receptor (PR) functions as a transcription factor that modulates the transcription of target genes in response to progesterone and other signals. The transcriptional activity of PR requires the involvement of coactivators such as steroid receptor coactivator-1 (SRC-1). To dissect the role of SRC-1 in PR transactivation, we established an in vitro transcription system with chromatin templates, in which PR induced transcription in a ligand-dependent and PRE-dependent manner. In the presence of ligand, purified PR bound to chromatin templates, resulting in chromatin remodeling. With this system, the ability of purified SRC-1 to act as a coactivator of PR was examined. SRC-1 potentiated transcription by ligand-activated PR, whereas it had no effect on transcription in the absence of ligands. As SRC-1 possesses intrinsic histone acetyltransferase activity, we tested the role of acetylation in PR-mediated transcription by using a histone deacetylase inhibitor, trichostatin A (TSA). We found that addition of TSA strongly enhanced PR-dependent transcription on chromatin but not on naked DNA template, and the effects of SRC-1 and TSA on PR transactivation were partially redundant. In addition, SRC-1 was able to potentiate PR transactivation with nonchromatin templates. Thus, our results substantiate a two-step mechanism whereby recruitment of coactivator SRC-1 by the ligand-activated PR in vivo leads to (i) chromatin remodeling through histone acetylation and (ii) recruitment/stabilization of the preinitiation complex. (+info)
Structure-function analysis of human cytochrome P-450 2B6 using a novel substrate, site-directed mutagenesis, and molecular modeling.
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The structural basis for functional differences between human cytochrome P-450 2B6 and rat 2B1 was investigated. An amino acid sequence alignment predicted the location of 2B6 substrate recognition site (SRS) residues. Ten residues within these SRSs unique to 2B6 compared with 2B1, 2B4, and 2B11 were chosen for mutagenesis. Two additional sites that differ between 2B6 and 2B1 and are known to have a role in 2B1 substrate specificity were also mutated. The 2B6 mutants were expressed in Spodoptera frugiperda cells and characterized using the 2B6-specific substrate RP 73401 [3-cyclopentyloxy-N-(3,5-dichloro-4-pyridyl)-4-methoxybenzamide], the 2B1-selective substrate androstenedione, and the common substrate 7-ethoxy-4-trifluoromethylcoumarin. Mutants F107I and L363V exhibited decreased RP 73401 hydroxylation but retained most of the wild-type level of 2B6 7-ethoxy-4-trifluoromethylcoumarin O-deethylase activity. In addition, SRS exchanges were studied in which the amino acid sequence of 2B6 SRSs was converted to the sequence of 2B1. Each of these constructs, having two to seven substitutions, expressed at levels similar to 2B6 but did not acquire significant androstenedione hydroxylase activity. Docking of RP 73401 into the active site of a 2B6 homology model suggested a direct interaction with residue L363 but not with F107. Findings from this study suggest that 1) residues F107 and L363 are necessary for 2B6 RP 73401 hydroxylase activity, 2) 2B6 is able to tolerate multiple SRS substitutions without compromising protein expression levels or protein stability, and 3) conferring androstenedione hydroxylase function to cytochrome P-450 2B6 is more complex than altering a single SRS. (+info)
Large-scale production and purification of functional recombinant bovine rhodopsin with the use of the baculovirus expression system.
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Here we describe a generic procedure for the expression and purification of milligram quantities of functional recombinant eukaryotic integral membrane proteins, exemplified by hexahistidine-tagged bovine rhodopsin. These quantities were obtained with the recombinant baculovirus/Sf9 insect cell-based expression system in large-scale bioreactor cultures with the use of a serum-free and protein-free growth medium. After optimization procedures, expression levels up to 4 mg/l were established. The recombinant rhodopsin could be purified with high overall yield by using immobilized-metal-affinity chromatography on Ni(2+)-agarose. After reconstitution into a native lipid environment, the purified protein was functionally indistinguishable from native rhodopsin with regard to the following parameters: spectral absorbance band, structural changes after photoactivation, and G-protein activation. The procedures developed can be adapted to other membrane proteins. The ability to produce and purify tens of milligrams of functional recombinant eukaryotic membrane protein meets the ever-increasing demand of material necessary to perform detailed biochemical and structural biophysical studies that are essential in unravelling their working mechanism at a molecular level. (+info)
Characterization of a bioassay for detection of recombinant and native ovine interleukin-5.
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In order to analyse Th2-type immune responses in sheep by the assay of interleukin (IL)-5 in biological fluids, the ovine IL-5 gene was cloned and expressed in Spodoptera frugiperda Sf9 insect cells using the baculovirus expression vector system. The recombinant product was purified as BAC-OV-IL-5 from the supernatant fluid. The ovine IL-5 was biologically active in a bioassay using IL-5-dependent Baf cells, which have been used previously to specifically detect human IL-5. The specificity of Baf cells for ovine IL-5 was examined by two methods. First, Baf cells only proliferated in response to BAC-OV-IL-5 and did not respond to addition of recombinant ovine cytokines granulocyte-macrophage colony stimulating factor (GM-CSF), IL-1beta, IL-2, IL-3, IL-6, IL-8, stem cell factor (SCF) or IFN-gamma at doses from 0.01 to 1 microg/well. Second, the rat monoclonal antibody to murine IL-5, TRFK-5, neutralized murine, but not ovine, IL-5. However, rabbit antisera to BAC-OV-IL-5 neutralized murine and ovine recombinant IL-5 and abolished responses of Baf cells to IL-5 activity in supernatant fluids from mesenteric lymph node cells (MLNC) of parasitized sheep. The bioassay had a sensitivity to detect 8 ng in a 200 microL assay (40 ng/mL). Thus, the specificity of Baf cells to detect human IL-5 also extends to ovine IL-5 and therefore provides a method for monitoring the production of Th2 immune reactivity in sheep. (+info)
Sulindac inhibits activation of the NF-kappaB pathway.
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Sulindac is a non-steroidal anti-inflammatory agent that is related both structurally and pharmacologically to indomethacin. In addition to its anti-inflammatory properties, sulindac has been demonstrated to have a role in the prevention of colon cancer. Both its growth inhibitory and anti-inflammatory properties are due at least in part to its ability to decrease prostaglandin synthesis by inhibiting the activity of cyclooxygenases. Recently, we demonstrated that both aspirin and sodium salicylate, but not indomethacin, inhibited the activity of an IkappaB kinase beta (IKKbeta) that is required to activate the nuclear factor-kappaB (NF-kappaB) pathway. In this study, we show that sulindac and its metabolites sulindac sulfide and sulindac sulfone can also inhibit the NF-kappaB pathway in both colon cancer and other cell lines. Similar to our previous results with aspirin, this inhibition is due to sulindac-mediated decreases in IKKbeta kinase activity. Concentrations of sulindac that inhibit IKKbeta activity also reduce the proliferation of colon cancer cells. These results suggest that the growth inhibitory and anti-inflammatory properties of sulindac may be regulated in part by inhibition of kinases that regulate the NF-kappaB pathway. (+info)
2'-adenylated derivatives of Ap3A activate RNase L.
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The exact physiological function of Ap3A (A5'ppp5"A, 5'5" diadenosine triphosphate) remains unclear. Previously we have demonstrated that the human p46 2-5A synthetase (OAS1) efficiently utilises Ap3A as an acceptor substrate for oligoadenylate synthesis. Here we show that Ap3A(2'p5'A)n oligonucleotides can activate the 2-5A-dependent RNase (RNase L), when the number of 2',5'-linked adenyl residues is two or more. Under the experimental conditions applied the half-maximal activation (AC50) of RNase L for 2'-adenylated Ap3A derivatives was determined to be in nanomolar range while the AC50 for 2-5A3 was 0.4 nM. The Ap3A(2'p5'A)n oligonucleotides are thus less effective in activating RNase L than 2-5A. We also investigated the occurrence of 2'-adenylated Ap3A in interferon and poly(I).poly(C)-treated HeLa cells. In purified trichloroacetic acid-soluble extracts about 40% of RNase L-activating material is resistant to phosphatase treatment, whereas the removal of 5'-terminal phosphates greatly reduces the activating properties of 2-5A. We assume that this activity at least partly may be associated with the presence of 2'-adenylated ApnA derivatives with blocked 5'-terminal phosphates. (+info)