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951.
David Benito-Garagorri Christina M. Standfest-Hauser Karl Kirchner 《Inorganica chimica acta》2010,363(14):3674-1759
The synthesis of bidentate aminophosphine ligands (PNquin) based on 8-hydroxyquinoline is described. These ligands react with cis-Fe(CO)4Br2 to give selectively octahedral complexes of the type cis,cis-Fe(PNquin)(CO)2Br2. There is only one isomer formed where the two CO and the two bromide ligands adopt a cis configuration. The reaction of [RuCp(CH3CN)3]PF6 with PNquin ligands affords the halfsandwich complexes [RuCp(PNquin)(CH3CN)]PF6 in high isolated yields. Likewise, treatment of [Ru(η6-p-cymene)(μ-Cl)Cl]2 with PNquin in the presence of AgCF3SO3 affords halfsandwich complexes of the type [Ru(η6-p-cymene)(PNquin)Cl]CF3SO3. All ligands and complexes are characterized by NMR and IR spectroscopy. The X-ray structure of representative compounds is reported. In addition, the relative stability of isomeric structures and conformers of Fe(PNquin-Ph)(CO)2Br2 is studied by means of DFT calculations. 相似文献
952.
953.
Sylvia Ullrich Anna Münch Stephanie Neumann Elisabeth Kremmer J?rg Tatzelt Stefan F. Lichtenthaler 《The Journal of biological chemistry》2010,285(27):20664-20674
Ectodomain shedding of the amyloid precursor protein (APP) by the two proteases α- and β-secretase is a key regulatory event in the generation of the Alzheimer disease amyloid β peptide (Aβ). At present, little is known about the cellular mechanisms that control APP shedding and Aβ generation. Here, we identified a novel protein, transmembrane protein 59 (TMEM59), as a new modulator of APP shedding. TMEM59 was found to be a ubiquitously expressed, Golgi-localized protein. TMEM59 transfection inhibited complex N- and O-glycosylation of APP in cultured cells. Additionally, TMEM59 induced APP retention in the Golgi and inhibited Aβ generation as well as APP cleavage by α- and β-secretase cleavage, which occur at the plasma membrane and in the endosomes, respectively. Moreover, TMEM59 inhibited the complex N-glycosylation of the prion protein, suggesting a more general modulation of Golgi glycosylation reactions. Importantly, TMEM59 did not affect the secretion of soluble proteins or the α-secretase like shedding of tumor necrosis factor α, demonstrating that TMEM59 did not disturb the general Golgi function. The phenotype of TMEM59 transfection on APP glycosylation and shedding was similar to the one observed in cells lacking conserved oligomeric Golgi (COG) proteins COG1 and COG2. Both proteins are required for normal localization and activity of Golgi glycosylation enzymes. In summary, this study shows that TMEM59 expression modulates complex N- and O-glycosylation and suggests that TMEM59 affects APP shedding by reducing access of APP to the cellular compartments, where it is normally cleaved by α- and β-secretase. 相似文献
954.
Luiz E. M. Cardoso Peter J. Little Mandy L. Ballinger Christina K. Chan Kathleen R. Braun Susan Potter-Perigo Karin E. Bornfeldt Michael G. Kinsella Thomas N. Wight 《The Journal of biological chemistry》2010,285(10):6987-6995
The synthesis of proteoglycans involves steps that regulate both protein and glycosaminoglycan (GAG) synthesis, but it is unclear whether these two pathways are regulated by the same or different signaling pathways. We therefore investigated signaling pathways involved in platelet-derived growth factor (PDGF)-mediated increases in versican core protein and GAG chain synthesis in arterial smooth muscle cells (ASMCs). PDGF treatment of ASMCs resulted in increased versican core protein synthesis and elongation of GAG chains attached to the versican core protein. The effects of PDGF on versican mRNA were blocked by inhibiting either protein kinase C (PKC) or the ERK pathways, whereas the GAG elongation effect of PDGF was blocked by PKC inhibition but not by ERK inhibition. Interestingly, blocking protein synthesis in the presence of cycloheximide abolished the PDGF effect, but not in the presence of xyloside, indicating that GAG synthesis that results from PKC activation is independent from de novo protein synthesis. PDGF also stimulated an increase in the chondroitin-6-sulfate to chondroitin-4-sulfate ratio of GAG chains on versican, and this effect was blocked by PKC inhibitors. These data show that PKC activation is sufficient to cause GAG chain elongation, but both PKC and ERK activation are required for versican mRNA core protein expression. These results indicate that different signaling pathways control different aspects of PDGF-stimulated versican biosynthesis by ASMCs. These data will be useful in designing strategies to interfere with the synthesis of this proteoglycan in various disease states. 相似文献
955.
Laetitia Malphettes Yevgeniy Freyvert Jennifer Chang Pei‐Qi Liu Edmond Chan Jeffrey C. Miller Zhe Zhou Thu Nguyen Christina Tsai Andrew W. Snowden Trevor N. Collingwood Philip D. Gregory Gregory J. Cost 《Biotechnology and bioengineering》2010,106(5):774-783
IgG1 antibodies produced in Chinese hamster ovary (CHO) cells are heavily α1,6‐fucosylated, a modification that reduces antibody‐dependent cellular cytotoxicity (ADCC) and can inhibit therapeutic antibody function in vivo. Addition of fucose is catalyzed by Fut8, a α1,6‐fucosyltransferase. FUT8?/? CHO cell lines produce completely nonfucosylated antibodies, but the difficulty of recapitulating the knockout in protein‐production cell lines has prevented the widespread adoption of FUT8?/? cells as hosts for antibody production. We have created zinc‐finger nucleases (ZFNs) that cleave the FUT8 gene in a region encoding the catalytic core of the enzyme, allowing the functional disruption of FUT8 in any CHO cell line. These reagents produce FUT8?/? CHO cells in 3 weeks at a frequency of 5% in the absence of any selection. Alternately, populations of ZFN‐treated cells can be directly selected to give FUT8?/? cell pools in as few as 3 days. To demonstrate the utility of this method in bioprocess, FUT8 was disrupted in a CHO cell line used for stable protein production. ZFN‐derived FUT8?/? cell lines were as transfectable as wild‐type, had similar or better growth profiles, and produced equivalent amounts of antibody during transient transfection. Antibodies made in these lines completely lacked core fucosylation but had an otherwise normal glycosylation pattern. Cell lines stably expressing a model antibody were made from wild‐type and ZFN‐generated FUT8?/? cells. Clones from both lines had equivalent titer, specific productivity distributions, and integrated viable cell counts. Antibody titer in the best ZFN‐generated FUT8?/? cell lines was fourfold higher than in the best‐producing clones of FUT8?/? cells made by standard homologous recombination in a different CHO subtype. These data demonstrate the straightforward, ZFN‐mediated transfer of the Fut8? phenotype to a production CHO cell line without adverse phenotypic effects. This process will speed the production of highly active, completely nonfucosylated therapeutic antibodies. Biotechnol. Bioeng. 2010;106: 774–783. © 2010 Wiley Periodicals, Inc. 相似文献
956.
Christina Bohlin Søren Nymand Olsen Marc Dominique Morant Shamkant Patkar Kim Borch Peter Westh 《Biotechnology and bioengineering》2010,107(6):943-952
β‐Glucosidases (BGs) from Aspergillus fumigates, Aspergillus niger, Aspergillus oryzae, Chaetomium globosum, Emericella nidulans, Magnaporthe grisea, Neurospora crassa, and Penicillium brasilianum were purified to homogeneity, and analyzed by isothermal titration calorimetry with respect to their hydrolytic activity and its sensitivity to glucose (product) using cellobiose as substrate. Global non‐linear regression of several reactions, with or without added glucose, to a product inhibition equation enabled the concurrent derivation of the kinetic parameters kcat, Km, and the apparent product inhibition constant appKi for each of the enzymes. A more simple fit is not advisable to use as the determined appKi are in the same range as their Km for some of the tested BGs and produced glucose would in these cases interfere. The highest value for kcat was determined for A. fumigatus (768 s?1) and the lowest was a factor 9 less. Km varied by a factor of 3 with the lowest value determined for C. globosum (0.95 mM). The measured appKi varied a factor of 15; the hydrolytic activity of N. crassa being the most resistant to glucose with an apparent product inhibition constant of 10.1 mM. Determination of appKi using cellobiose as substrate is important as it reflects to what extent the different BGs are hydrolytically active under industrial conditions where natural substrates are hydrolyzed and the final glucose concentrations are high. Biotechnol. Bioeng. 2010;107: 943–952. © 2010 Wiley Periodicals, Inc. 相似文献
957.
Rodrigo S. Lacruz Antonio Nanci Shane N. White Xin Wen HongJun Wang Sylvia F. Zalzal Vivian Q. Luong Verna L. Schuetter Peter S. Conti Ira Kurtz Michael L. Paine 《The Journal of biological chemistry》2010,285(32):24432-24438
Proximal renal tubular acidosis (pRTA) is a syndrome caused by abnormal proximal tubule reabsorption of bicarbonate resulting in metabolic acidosis. Patients with mutations to the SLC4A4 gene (coding for the sodium bicarbonate cotransporter NBCe1), have pRTA, growth delay, ocular defects, and enamel abnormalities. In an earlier report, we provided the first evidence that enamel cells, the ameloblasts, express NBCe1 in a polarized fashion, thereby contributing to trans-cellular bicarbonate transport. To determine whether NBCe1 plays a critical role in enamel development, we studied the expression of NBCe1 at various stages of enamel formation in wild-type mice and characterized the biophysical properties of enamel in NBCe1−/− animals. The enamel of NBCe1−/− animals was extremely hypomineralized and weak with an abnormal prismatic architecture. The expression profile of amelogenin, a known enamel-specific gene, was not altered in NBCe1−/− animals. Our results show for the first time that NBCe1 expression is required for the development of normal enamel. This study provides a mechanistic model to account for enamel abnormalities in certain patients with pRTA. 相似文献
958.
959.
960.
Proteolytic processing and ectodomain shedding have been described for a broad spectrum of transmembrane proteins under both normal and pathophysiological conditions and has been suggested as one mechanism to regulate a protein's function. It has also been documented for the receptor-like protein tyrosine phosphatase PTP-LAR, induced by treating cells with the tumor promoter TPA or the calcium ionophor A23187. Here we identified the epidermal growth factor receptor (EGFR) as both an association partner of PTP-LAR, that mediates phosphorylation of the latter, as well as an inducer of LAR-cleavage. Both overexpression of this kinase and stimulation of endogenous EGFR in various tumor cell lines were shown to induce proteolytic processing of the catalytic LAR-P-subunit. In contrast to TPA-induced shedding of PTP-LAR, EGFR-mediated cleavage did not require PKC-activity. For both stimuli, however, processing of the P-subunit turned out to be dependent on the activation of the MAP kinases ERK1 and ERK2, and was completely abrogated upon pre-treating cells with Batimastat, indicating the involvement of a metalloproteinase in this pathway. Being strongly impaired in fibroblasts derived from ADAM-17/TACE-knockout-mice or tumor cells that express a dominant negative mutant of ADAM-17/TACE, cleavage of PTP-LAR is suggested to be mediated by this metalloproteinase. Paralleled by rapid reduction of cell surface-localized LAR-E-subunit, EGFR-induced cleavage could be shown to lead to degradation of the catalytic LAR-P-subunit, thereby resulting in a significantly reduced overall cellular phosphatase activity of PTP-LAR. These results for the first time identify a protein tyrosine phosphatase as a potential substrate of TACE and describe proteolytic processing of PTP-LAR as a means of regulating phosphatase activity downstream and thus under the control of EGFR-mediated signaling pathways. 相似文献