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71.
Jong Hyuk Yoon Dayea Kim Jin-Hyeok Jang Jaewang Ghim Soyeon Park Parkyong Song Yonghoon Kwon Jaeyoon Kim Daehee Hwang Yoe-Sik Bae Pann-Ghill Suh Per-Olof Berggren Sung Ho Ryu 《Molecular & cellular proteomics : MCP》2015,14(4):882-892
Elevated levels of the free fatty acid palmitate are found in the plasma of obese patients and induce insulin resistance. Skeletal muscle secretes myokines as extracellular signaling mediators in response to pathophysiological conditions. Here, we identified and characterized the skeletal muscle secretome in response to palmitate-induced insulin resistance. Using a quantitative proteomic approach, we identified 36 secretory proteins modulated by palmitate-induced insulin resistance. Bioinformatics analysis revealed that palmitate-induced insulin resistance induced cellular stress and modulated secretory events. We found that the decrease in the level of annexin A1, a secretory protein, depended on palmitate, and that annexin A1 and its receptor, formyl peptide receptor 2 agonist, played a protective role in the palmitate-induced insulin resistance of L6 myotubes through PKC-θ modulation. In mice fed with a high-fat diet, treatment with the formyl peptide receptor 2 agonist improved systemic insulin sensitivity. Thus, we identified myokine candidates modulated by palmitate-induced insulin resistance and found that the annexin A1- formyl peptide receptor 2 pathway mediated the insulin resistance of skeletal muscle, as well as systemic insulin sensitivity.The obesity epidemic has been linked to the development of metabolic complications such as hyperlipidemia, insulin resistance, and hypertension (1, 2). Hyperlipidemia/dyslipidemia involves abnormally elevated levels of lipids and/or lipoproteins in the plasma (3, 4). Obese patients exhibit characteristics of hyperlipidemia/dyslipidemia, such as abnormal elevations in plasma free fatty acid, cholesterol, and triglyceride levels, as well as a reduction in high-density lipoprotein content (3–5). Elevated free fatty acid levels in the plasma of obese patients play an important role in the development of insulin resistance (6). Hence, lowering the free fatty acid level in plasma has been shown to restore insulin sensitivity in these patients (7). Palmitate (C16:0) is a saturated free fatty acid found in animal plasma. It has been reported that the concentration of plasma palmitate in obese patients is higher than in healthy individuals (6, 8). In molecular studies, palmitate has been found to induce inflammation and insulin resistance in skeletal muscle cells by promoting diacylglycerol accumulation, which in turn activates protein kinase C (PKC)-θ1 and NF-κB, leading to the inhibition of insulin-stimulated Akt phosphorylation through insulin receptor substrate 1 (IRS1) (S307) phosphorylation and IL-6 secretion (9). Sortilin was recently identified as a mediator of palmitate-dependent insulin resistance, which regulates insulin-induced glucose transporter type 4 (GLUT4) trafficking (10). Therefore, palmitate is an important hyperlipidemic/dyslipidemic component that induces insulin resistance in skeletal muscle cells.Skeletal muscle is thought to function as a tissue that produces and releases cytokines called myokines (11). As part of its extracellular signaling pathway, skeletal muscle secretes myokines that participate in myogenesis, angiogenesis, and nutrient generation in response to factors such as metabolic disorders, including insulin resistance, and exercise (11–13). Some myokines, including IL-6, IL-8, IL-15, and fibroblast growth factor 21, and brain-derived neurotrophic factor (14), are induced by exercise. Although myokines are thought to play a critical role in the regulation of (patho)physiological processes, few studies have investigated the role of myokine in metabolism. Because skeletal muscle has a major role in the regulation of glucose metabolism, it is important to identify putative crucial regulators, secreted from skeletal muscle, that modulate glucose metabolism by acting as autocrine/paracrine mediators as well as endocrine mediators (15).Here, using an optimized secretomics approach, we performed a proteomic analysis of proteins in conditioned media from myotube cultures that were either untreated or treated with palmitate to induce insulin resistance (16, 17). Using a label-free quantitative analysis method, our aim was to characterize the skeletal muscle secretome and to identify skeletal muscle-derived proteins whose secretion is modulated by palmitate-induced insulin resistance. We found 36 putative secretory proteins modulated by palmitate-induced insulin resistance. The secretion of annexin A1 was down-regulated after palmitate treatment, and the annexin A1-formyl peptide receptor 2 (FPR2) pathway played a role in palmitate-induced insulin resistance in skeletal muscle by modulating the PKC-θ pathway. 相似文献
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The primary nitrogen metabolism of the N2-fixing root nodule symbiosis Alnus incana (L.)–Frankia was investigated by 31P and 15N nuclear magnetic resonance (NMR) spectroscopy. Perfusion of root nodules in a pulse–chase approach with 15N- or 14N-labeled NH4+ revealed the presence of the amino acids alanine (Ala), -amino butyric acid, glutamine (Gln), glutamic acid (Glu), citrulline (Cit) and arginine (Arg). Labeling kinetics of the Gln amide-N and -amino acids suggested that the glutamine synthetase (GS; EC 6.3.1.2)–glutamate synthase (GOGAT; EC 1.4.1.13) pathway was active. Inhibition of the GS-catalyzed reaction by methionine sulphoximine abolished incorporation of 15N. Cit was labeled in all three N positions but most rapidly in the position, consistent with carbamoyl phosphate as the precursor to which Gln could be the amino donor catalyzed by carbamoyl phosphate synthase (CPS; EC 6.3.5.5). Ala biosynthesis occurred consistent with a flux of N in the sequence Gln–Glu–Ala. 31P NMR spectroscopy in vivo and of extracts revealed several metabolites and was used in connection with the 15N pulse–chase experiment to assess general metabolic status. Stable concentrations of ATP and UDP-glucose during extended perfusions showed that the overall root nodule metabolism appeared undisturbed throughout the experiments. The metabolic pathways suggested by the NMR results were confirmed by high activities of the enzymes GS, NADH-GOGAT and ornithine carbamoyltransferase (OCT; EC 2.1.3.3). We conclude that the primary pathway of NH4+ assimilation in A. incana root nodules occurs through the GS–GOGAT pathway. Biosynthesis of Cit through GS–CPS–OCT is important and is a link between the first amino acid Gln and this final transport and storage form of nitrogen.Abbreviations AlaDH l-Alanine dehydrogenase - Cit Citrulline - CPS Carbamoyl phosphate synthase - GABA -Amino butyric acid - GOGAT Glutamate synthase - GS Glutamine synthetase - MDH Malate dehydrogenase - MSO Methionine sulphoximine - NMR Nuclear magnetic resonance - OCT Ornithine carbamoyltransferase - PEPC Phosphoenolpyruvate decarboxylase - UDPGlc Uridine 5-diphosphoglucose 相似文献
74.
Sajid W Kulahin N Schluckebier G Ribel U Henderson HR Tatar M Hansen BF Svendsen AM Kiselyov VV Nørgaard P Wahlund PO Brandt J Kohanski RA Andersen AS De Meyts P 《The Journal of biological chemistry》2011,286(1):661-673
We report the crystal structure of two variants of Drosophila melanogaster insulin-like peptide 5 (DILP5) at a resolution of 1.85 Å. DILP5 shares the basic fold of the insulin peptide family (T conformation) but with a disordered B-chain C terminus. DILP5 dimerizes in the crystal and in solution. The dimer interface is not similar to that observed in vertebrates, i.e. through an anti-parallel β-sheet involving the B-chain C termini but, in contrast, is formed through an anti-parallel β-sheet involving the B-chain N termini. DILP5 binds to and activates the human insulin receptor and lowers blood glucose in rats. It also lowers trehalose levels in Drosophila. Reciprocally, human insulin binds to the Drosophila insulin receptor and induces negative cooperativity as in the human receptor. DILP5 also binds to insect insulin-binding proteins. These results show high evolutionary conservation of the insulin receptor binding properties despite divergent insulin dimerization mechanisms. 相似文献
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Purification of histidine-tagged single-chain Fv-antibody fragments by metal chelate affinity precipitation using thermoresponsive copolymers 总被引:3,自引:0,他引:3
Kumar A Wahlund PO Kepka C Galaev IY Mattiasson B 《Biotechnology and bioengineering》2003,84(4):494-503
Metal chelate affinity precipitation (MCAP) has been successfully developed as a simple purification process for proteins that have affinity for metal ions. The present lack of widespread applications for this technique as compared to immobilized metal affinity chromatography (IMAC) may be related to the scarcity of well-characterized metal affinity macroligands (AML) and their applications to the number of different purification systems. In the present work we describe a detailed study of a new purification system using metal-loaded thermoresponsive copolymers as AML. The copolymers of vinylimidazole (VI) with N-isopropylacrylamide (NIPAM) were synthesized by radical polymerization with imidazole contents of 15 and 24 mol%. When loaded with Cu(II) and Ni(II) ions the copolymers selectively precipitated extracellularly expressed histidine-tagged single-chain Fv-antibody fragments (His(6)-scFv fragments) from the fermentation broth free from E. coli cells. Precipitation was induced by salt at mild temperatures and the bound antibody fragments were recovered by dissolving the protein-polymer complex in EDTA buffer and subsequent reprecipitation of the polymer. His(6)-scFv fragments were purified with yields of 91 and 80% and purification folds of 16 and 21 when Cu(II) and Ni(II) copolymers were used, respectively. The protein precipitation capacity of the Ni(II) copolymer showed a dependence on the VI concentration in the copolymer. The SDS-PAGE pattern showed significant purification of the antibody fragments. 相似文献
77.
Lilja L Johansson JU Gromada J Mandic SA Fried G Berggren PO Bark C 《The Journal of biological chemistry》2004,279(28):29534-29541
Cyclin-dependent kinase 5 (Cdk5) is a proline-directed serine/threonine protein kinase that requires association with a regulatory protein, p35 or p39, to form an active enzyme. Munc18-1 plays an essential role in membrane fusion, and its function is regulated by phosphorylation. We report here that both p35 and p39 were expressed in insulin-secreting beta-cells, where they exhibited individual subcellular distributions and associated with membranous organelles of different densities. Overexpression of Cdk5, p35, or p39 showed that Cdk5 and p39 augmented Ca(2+)-induced insulin exocytosis. Suppression of p39 and Cdk5, but not of p35, by antisense oligonucleotides selectively inhibited insulin exocytosis. Transient transfection of primary beta-cells with Munc18-1 templates mutated in potential Cdk5 or PKC phosphorylation sites, in combination with Cdk5 and the different Cdk5 activators, suggested that Cdk5/p39-promoted Ca(2+)-dependent insulin secretion from primary beta-cells by phosphorylating Munc18-1 at a biochemical step immediately prior to vesicle fusion. 相似文献
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