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Extracellular ATP stimulates poly(inositol phospholipid) hydrolysis and eicosanoid synthesis in mouse peritoneal macrophages in culture 总被引:2,自引:0,他引:2
The effects of extracellular ATP on inositol phospholipid breakdown and synthesis of eicosanoids were studied in mouse peritoneal macrophages. Addition of ATP to intact cells labelled with [3H]inositol stimulated a rapid (within 10 s) formation of inositol 1,4,5-trisphosphate and inositol 1,3,4,5-tetrakisphosphate. In parallel there was also a substantial accumulation of inositol 1,3,4-trisphosphate and the monophosphate and bisphosphate derivatives of inositol. Within 10 s after the addition of 30 microM ATP there was a twofold increase in inositol trisphosphate (InsP3), which declined over 2 min. The ED50 for ATP-stimulated generation of InsP3 was approximately 12 microM. ADP and GTP showed only weak effects on InsP3 formation, while AMP and adenosine were completely ineffective at 30 microM. Furthermore, the rank order of potency of ATP analogues was ATP greater than ATP[S] greater than AdoPP[NH]P = AdoPP[CH2]P greater than AdoP[CH2]PP thus, indicating the presence of a P2y-purinergic receptor. Cells labelled with [3H]arachidonic acid showed a 50% increase of label in 1,2-diacylglycerol after 15 s upon stimulation with ATP. In parallel to the stimulation of inositol phospholipid hydrolysis, ATP also caused a marked synthesis of prostaglandin E2 (PGE2) and leukotriene C4 (LTC4) in mouse peritoneal macrophages. The rank order of potency of ATP analogues was identical with that of InsP3 generation. The effect on eicosanoid synthesis could be mimicked by the calcium ionophore A23187 and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate. These results suggest that ATP-induced activation of P2y-purinergic receptors in mouse peritoneal macrophages triggers inositol phospholipid breakdown and eicosanoid synthesis. 相似文献
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The study of protein function usually requires the use of a cloned version of the gene for protein expression and functional assays. This strategy is particularly important when the information available regarding function is limited. The functional characterization of the thousands of newly identified proteins revealed by genomics requires faster methods than traditional single‐gene experiments, creating the need for fast, flexible, and reliable cloning systems. These collections of ORF clones can be coupled with high‐throughput proteomics platforms, such as protein microarrays and cell‐based assays, to answer biological questions. In this tutorial, we provide the background for DNA cloning, discuss the major high‐throughput cloning systems (Gateway® Technology, Flexi® Vector Systems, and CreatorTM DNA Cloning System) and compare them side‐by‐side. We also report an example of high‐throughput cloning study and its application in functional proteomics. This tutorial is part of the International Proteomics Tutorial Programme (IPTP12). 相似文献
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Mirko Zaffagnini Samuel Morisse Mariette Bedhomme Christophe H. Marchand Margherita Festa Nicolas Rouhier Stéphane D. Lemaire Paolo Trost 《The Journal of biological chemistry》2013,288(31):22777-22789
Nitrosylation is a reversible post-translational modification of protein cysteines playing a major role in cellular regulation and signaling in many organisms, including plants where it has been implicated in the regulation of immunity and cell death. The extent of nitrosylation of a given cysteine residue is governed by the equilibrium between nitrosylation and denitrosylation reactions. The mechanisms of these reactions remain poorly studied in plants. In this study, we have employed glycolytic GAPDH from Arabidopsis thaliana as a tool to investigate the molecular mechanisms of nitrosylation and denitrosylation using a combination of approaches, including activity assays, the biotin switch technique, site-directed mutagenesis, and mass spectrometry. Arabidopsis GAPDH activity was reversibly inhibited by nitrosylation of catalytic Cys-149 mediated either chemically with a strong NO donor or by trans-nitrosylation with GSNO. GSNO was found to trigger both GAPDH nitrosylation and glutathionylation, although nitrosylation was widely prominent. Arabidopsis GAPDH was found to be denitrosylated by GSH but not by plant cytoplasmic thioredoxins. GSH fully converted nitrosylated GAPDH to the reduced, active enzyme, without forming any glutathionylated GAPDH. Thus, we found that nitrosylation of GAPDH is not a step toward formation of the more stable glutathionylated enzyme. GSH-dependent denitrosylation of GAPC1 was found to be linked to the [GSH]/[GSNO] ratio and to be independent of the [GSH]/[GSSG] ratio. The possible importance of these biochemical properties for the regulation of Arabidopsis GAPDH functions in vivo is discussed. 相似文献
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Festa M Ricciardelli G Mele G Pietropaolo C Ruffo A Colonna A 《The Journal of biological chemistry》2000,275(47):36708-36712
The role of iron-dependent oxidative metabolism in protecting the oxidable substrates contained in mature adipocytes is still unclear. Because differentiation increases ferritin formation in several cell types, thereby leading to an accumulation of H-rich isoferritins, we investigated whether differentiation affects iron metabolism in 3T3-L1 pre-adipocytes. To this aim, we evaluated the expression of the genes coding for the H and L ferritin subunits and for cytoplasmic iron regulatory protein (IRP) during the differentiation of 3T3-L1 cells in adipocytes induced by the addition of isobutylmethylxanthine, insulin, and dexamethasone. Differentiation enhanced ferritin formation and caused overexpression of the H subunit, thus altering the H/L subunit ratio. Northern blot analysis showed increased levels of H subunit mRNA. A gel retardation assay of cytoplasmic extract from differentiated cells, using an iron-responsive element as a probe, revealed enhanced an RNA binding capacity of IRP1, which correlated with the increase of IRP1 mRNA. The observed correlation between differentiation and iron metabolism in adipocytes suggests that an accumulation of H-rich isoferritin may limit the toxicity of iron in adipose tissue, thus exerting an antioxidant function. 相似文献
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Giardina P Autore F Faraco V Festa G Palmieri G Piscitelli A Sannia G 《Applied microbiology and biotechnology》2007,75(6):1293-1300
The subfamily of POXA3 laccase isoenzymes produced by the fungus Pleurotus ostreatus has been characterized as an example of the complexity and heterogeneity of fungal isoenzyme patterns. Two isoenzymes, POXA3a
and POXA3b, were previously purified, exhibiting an unusual heterodimeric structure composed of a large (67 kDa) and a small
(18 or 16 kDa) subunit. A unique gene encodes the large subunit of both POXA3a and POXA3b, but alternative splicing produces
two variants—differing for an insertion of four amino acids—for each isoenzyme. Two genes encoding POXA3a and POXA3b small
subunits have been identified, and the corresponding amino acid sequences show only two amino acid substitutions. The 18-
and 16-kDa subunits of both POXA3a and POXA3b differ for N-glycosylation at Asn150 of the 16-kDa subunit. The POXA3 large subunit 3D model allows us to highlight peculiarities of this
molecule with respect to the laccases whose 3D structures are known. 相似文献
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