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Lasha Gogokhia Kate Buhrke Rickesha Bell Brenden Hoffman D. Garrett Brown Christin Hanke-Gogokhia Nadim J. Ajami Matthew C. Wong Arevik Ghazaryan John F. Valentine Nathan Porter Eric Martens Ryan O’Connell Vinita Jacob Ellen Scherl Carl Crawford W. Zac Stephens Sherwood R. Casjens June L. Round 《Cell host & microbe》2019,25(2):285-299.e8
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Layton JE Hall NE Connell F Venhorst J Treutlein HR 《The Journal of biological chemistry》2001,276(39):36779-36787
The granulocyte colony-stimulating factor receptor (G-CSF-R) forms a tetrameric complex with G-CSF containing two ligand and two receptor molecules. The N-terminal Ig-like domain of the G-CSF-R is required for receptor dimerization, but it is not known whether it binds G-CSF or interacts elsewhere in the complex. Alanine scanning mutagenesis was used to show that residues in the Ig-like domain of the G-CSF-R (Phe(75), Gln(87), and Gln(91)) interact with G-CSF. This binding site for G-CSF overlapped with the binding site of a neutralizing anti-G-CSF-R antibody. A model of the Ig-like domain showed that the binding site is very similar to the viral interleukin-6 binding site (site III) on the Ig-like domain of gp130, a related receptor. To further characterize the G-CSF-R complex, exposed and inaccessible regions of monomeric and dimeric ligand-receptor complexes were mapped with monoclonal antibodies. The results showed that the E helix of G-CSF was inaccessible in the dimeric but exposed in the monomeric complex, suggesting that this region binds to the Ig-like domain of the G-CSF-R. In addition, the N terminus of G-CSF was exposed to antibody binding in both complexes. These data establish that the dimerization interface of the complete receptor complex is different from that in the x-ray structure of a partial complex. A model of the tetrameric G-CSF.G-CSF-R complex was prepared, based on the viral interleukin-6.gp130 complex, which explains these and previously published data. 相似文献
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Salt IP Morrow VA Brandie FM Connell JM Petrie JR 《The Journal of biological chemistry》2003,278(21):18791-18797
Recent studies have indicated that insulin activates endothelial nitric-oxide synthase (eNOS) by protein kinase B (PKB)-mediated phosphorylation at Ser1177 in endothelial cells. Because hyperglycemia contributes to endothelial dysfunction and decreased NO availability in types 1 and 2 diabetes mellitus, we have studied the effects of high glucose (25 mM, 48 h) on insulin signaling pathways that regulate NO production in human aortic endothelial cells. High glucose inhibited insulin-stimulated NO synthesis but was without effect on NO synthesis stimulated by increasing intracellular Ca2+ concentration. This was accompanied by reduced expression of IRS-2 and attenuated insulin-stimulated recruitment of PI3K to IRS-1 and IRS-2, yet insulin-stimulated PKB activity and phosphorylation of eNOS at Ser1177 were unaffected. Inhibition of insulin-stimulated NO synthesis by high glucose was unaffected by an inhibitor of PKC. Furthermore, high glucose down-regulated the expression of CAP and Cbl, and insulin-stimulated Cbl phosphorylation, components of an insulin signaling cascade previously characterized in adipocytes. These data suggest that high glucose specifically inhibits insulin-stimulated NO synthesis and down-regulates some aspects of insulin signaling, including the CAP-Cbl signaling pathway, yet this is not a result of reduced PKB-mediated eNOS phosphorylation at Ser1177. Therefore, we propose that phosphorylation of eNOS at Ser1177 is not sufficient to stimulate NO production in cells cultured at 25 mM glucose. 相似文献
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Direct activation of AMP-activated protein kinase stimulates nitric-oxide synthesis in human aortic endothelial cells 总被引:11,自引:0,他引:11
Morrow VA Foufelle F Connell JM Petrie JR Gould GW Salt IP 《The Journal of biological chemistry》2003,278(34):31629-31639
Recent studies have indicated that endothelial nitric-oxide synthase (eNOS) is regulated by reversible phosphorylation in intact endothelial cells. AMP-activated protein kinase (AMPK) has previously been demonstrated to phosphorylate and activate eNOS at Ser-1177 in vitro, yet the function of AMPK in endothelium is poorly characterized. We therefore determined whether activation of AMPK with 5'-aminoimidazole-4-carboxamide ribonucleoside (AICAR) stimulated NO production in human aortic endothelial cells. AICAR caused the time- and dose-dependent stimulation of AMPK activity, with a concomitant increase in eNOS Ser-1177 phosphorylation and NO production. AMPK was associated with immunoprecipitates of eNOS, yet this was unaffected by increasing concentrations of AICAR. AICAR also caused the time- and dose-dependent stimulation of protein kinase B phosphorylation. To confirm that the effects of AICAR were indeed mediated by AMPK, we utilized adenovirus-mediated expression of a dominant negative AMPK mutant. Expression of dominant negative AMPK attenuated AICAR-stimulated AMPK activity, eNOS Ser-1177 phosphorylation and NO production and was without effect on AICAR-stimulated protein kinase B Ser-473 phosphorylation or NO production stimulated by insulin or A23187. These data suggest that AICAR-stimulated NO production is mediated by AMPK as a consequence of increased Ser-1177 phosphorylation of eNOS. We propose that stimuli that result in the acute activation of AMPK activity in endothelial cells stimulate NO production, at least in part due to phosphorylation and activation of eNOS. Regulation of endothelial AMPK therefore provides an additional mechanism by which local vascular tone may be controlled. 相似文献