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111.
Contribution of antigen-primed CD8+ T cells to the development of airway hyperresponsiveness and inflammation is associated with IL-13 总被引:5,自引:0,他引:5
Miyahara N Takeda K Kodama T Joetham A Taube C Park JW Miyahara S Balhorn A Dakhama A Gelfand EW 《Journal of immunology (Baltimore, Md. : 1950)》2004,172(4):2549-2558
The role of Th2/CD4 T cells, which secrete IL-4, IL-5, and IL-13, in allergic disease is well established; however, the role of CD8(+) T cells (allergen-induced airway hyperresponsiveness (AHR) and inflammation) is less clear. This study was conducted to define the role of Ag-primed CD8(+) T cells in the development of these allergen-induced responses. CD8-deficient (CD8(-/-)) mice and wild-type mice were sensitized to OVA by i.p. injection and then challenged with OVA via the airways. Compared with wild-type mice, CD8(-/-) mice developed significantly lower airway responsiveness to inhaled methacholine and lung eosinophilia, and exhibited decreased IL-13 production both in vivo, in the bronchoalveolar lavage (BAL) fluid, and in vitro, following Ag stimulation of peribronchial lymph node (PBLN) cells in culture. Reconstitution of sensitized and challenged CD8(-/-) mice with allergen-sensitized CD8(+) T cells fully restored the development of AHR, BAL eosinophilia, and IL-13 levels in BAL and in culture supernatants from PBLN cells. In contrast, transfer of naive CD8(+) T cells or allergen-sensitized CD8(+) T cells from IL-13-deficient donor mice failed to do so. Intracellular cytokine staining of lung as well as PBLN T cells revealed that CD8(+) T cells were a source of IL-13. These data suggest that Ag-primed CD8(+) T cells are required for the full development of AHR and airway inflammation, which appears to be associated with IL-13 production from these primed T cells. 相似文献
112.
Dan Liu Mathijs Vleugel Chelsea B. Backer Tetsuya Hori Tatsuo Fukagawa Iain M. Cheeseman Michael A. Lampson 《The Journal of cell biology》2010,188(6):809-820
Regulated interactions between kinetochores and spindle microtubules are essential to maintain genomic stability during chromosome segregation. The Aurora B kinase phosphorylates kinetochore substrates to destabilize kinetochore–microtubule interactions and eliminate incorrect attachments. These substrates must be dephosphorylated to stabilize correct attachments, but how opposing kinase and phosphatase activities are coordinated at the kinetochore is unknown. Here, we demonstrate that a conserved motif in the kinetochore protein KNL1 directly interacts with and targets protein phosphatase 1 (PP1) to the outer kinetochore. PP1 recruitment by KNL1 is required to dephosphorylate Aurora B substrates at kinetochores and stabilize microtubule attachments. PP1 levels at kinetochores are regulated and inversely proportional to local Aurora B activity. Indeed, we demonstrate that phosphorylation of KNL1 by Aurora B disrupts the KNL1–PP1 interaction. In total, our results support a positive feedback mechanism by which Aurora B activity at kinetochores not only targets substrates directly, but also prevents localization of the opposing phosphatase. 相似文献
113.
Tatsuya Shirahata Satoko Teruya Taku Kurimoto Toshiaki Sunazuka Eisuke Kaji 《Carbohydrate research》2010,345(6):740-6496
Efficient catalytic and stereoselective glycosylation was achieved by activating a glycosyl N-trichloroacetylcarbamate with a catalytic amount of Lewis acid in the presence of a glycosyl acceptor and 5 ? molecular sieves. Catalytic one-pot dehydrative glycosylation of a 1-hydroxy carbohydrate was achieved stereoselectively by reaction with trichloroacetyl isocyanate, followed by activation with a catalytic amount of activators. 相似文献
114.
Takata R Tokita K Mori S Shimoda R Harada N Ichinose H Kaneko S Igarashi K Samejima M Tsumuraya Y Kotake T 《Carbohydrate research》2010,345(17):2516-2522
Arabinogalactan-proteins (AGPs) are a family of plant proteoglycans having large carbohydrate moieties attached to core-proteins. The carbohydrate moieties of AGPs commonly have β-(1→3)(1→6)-galactan as the backbone, to which other auxiliary sugars such as l-Ara and GlcA are attached. For the present study, an α-l-arabinofuranosidase belonging to glycoside hydrolase family (GHF) 54, NcAraf1, and an endo-β-(1→6)-galactanase of GHF 5, Nc6GAL, were identified in Neurospora crassa. Recombinant NcAraf1 (rNcAraf1) expressed in Pichia pastoris hydrolyzed radish AGPs as well as arabinan and arabinoxylan, showing relatively broad substrate specificity toward polysaccharides containing α-l-arabinofuranosyl residues. Recombinant Nc6GAL (rNc6GAL) expressed in P. pastoris specifically acted on β-(1→6)-galactosyl residues. Whereas AGP from radish roots was hardly hydrolyzed by rNc6GAL alone, β-(1→6)-galactan side chains were reduced to one or two galactan residues by a combination of rNcAraf1 and rNc6GAL. These results suggest that the carbohydrate moieties of AGPs are degraded by the concerted action of NcAraf1 and Nc6GAL secreted from N. crassa. 相似文献
115.
Takashi Kobayashi Hiroko Habuchi Ken Nogami Satoko Ashikari‐Hada Koji Tamura Hiroyuki Ide Koji Kimata 《Development, growth & differentiation》2010,52(2):146-156
Heparan sulfate (HS) interacts with numerous growth factors, morphogens, receptors, and extracellular matrix proteins. Disruption of HS synthetic enzymes causes perturbation of growth factor signaling and malformation in vertebrate and invertebrate development. Our previous studies show that the O‐sulfation patterns of HS are essential for the specific binding of growth factors to HS chains, and that depletion of O‐sulfotransferases results in remarkable developmental defects in Drosophila, zebrafish, chick, and mouse. Here, we show that inhibition of chick HS‐6‐O‐sulfotransferases (HS6ST‐1 and HS6ST‐2) in the prospective limb region by RNA interference (RNAi) resulted in the truncation of limb buds and reduced Fgf‐8 and Fgf‐10 expressions in the apical ectodermal ridge and in the underlying mesenchyme, respectively. HS6ST‐2 RNAi resulted in a higher frequency of limb truncation and a more marked change in both Fgf‐8 and Fgf‐10 expressions than that achieved with HS6ST‐1 RNAi. HS6ST‐1 RNAi and HS6ST‐2 RNAi caused a significant but distinct reduction in the levels of different 6‐O‐sulfation in HS, possibly as a result of their different substrate specificities. Our data support a model where proper levels and patterns of 6‐O‐sulfation of HS play essential roles in chick limb bud development. 相似文献
116.
Induction of Manganese Superoxide Dismutase by Nuclear Translocation and Activation of SIRT1 Promotes Cell Survival in Chronic Heart Failure 总被引:1,自引:0,他引:1
Masaya Tanno Atsushi Kuno Toshiyuki Yano Tetsuji Miura Shin Hisahara Satoko Ishikawa Kazuaki Shimamoto Yoshiyuki Horio 《The Journal of biological chemistry》2010,285(11):8375-8382
Oxidative stress plays a pivotal role in chronic heart failure. SIRT1, an NAD+-dependent histone/protein deacetylase, promotes cell survival under oxidative stress when it is expressed in the nucleus. However, adult cardiomyocytes predominantly express SIRT1 in the cytoplasm, and its function has not been elucidated. The purpose of this study was to investigate the functional role of SIRT1 in the heart and the potential use of SIRT1 in therapy for heart failure. We investigated the subcellular localization of SIRT1 in cardiomyocytes and its impact on cell survival. SIRT1 accumulated in the nucleus of cardiomyocytes in the failing hearts of TO-2 hamsters, postmyocardial infarction rats, and a dilated cardiomyopathy patient but not in control healthy hearts. Nuclear but not cytoplasmic SIRT1-induced manganese superoxide dismutase (Mn-SOD), which was further enhanced by resveratrol, and increased the resistance of C2C12 myoblasts to oxidative stress. Resveratrol''s enhancement of Mn-SOD levels depended on the level of nuclear SIRT1, and it suppressed the cell death induced by antimycin A or angiotensin II. The cell-protective effects of nuclear SIRT1 or resveratrol were canceled by the Mn-SOD small interfering RNA or SIRT1 small interfering RNA. The oral administration of resveratrol to TO-2 hamsters increased Mn-SOD levels in cardiomyocytes, suppressed fibrosis, preserved cardiac function, and significantly improved survival. Thus, Mn-SOD induced by resveratrol via nuclear SIRT1 reduced oxidative stress and participated in cardiomyocyte protection. SIRT1 activators such as resveratrol could be novel therapeutic tools for the treatment of chronic heart failure. 相似文献
117.
118.
Itaya M Sakaya N Matsunaga S Fujita K Kaneko S 《Bioscience, biotechnology, and biochemistry》2006,70(3):740-742
pLS20-mediated conjugational transfer between Bacillus subtilis was investigated not on conventional solid media but in liquid culture. Detailed conjugational kinetics revealed that pLS20 transmission occurred at a limited cellular growth stage of both donor and recipient. Mutation of the recipient recA did not significantly interfere with the conjugational transfer process. 相似文献
119.
Fujino S Akiyama D Akaboshi S Fujita T Watanabe Y Tamai Y 《Bioscience, biotechnology, and biochemistry》2006,70(2):377-386
Phospholipase B (PLB) from the asporogenous yeast Candida utilis was purified to homogeneity from a culture broth. The apparent molecular mass was 90-110 kDa by SDS-PAGE. The enzyme had two pH optima, one acidic (pH 3.0) and the other alkaline (pH 7.5). At acidic pH the enzyme hydrolyzed all phospholipids tested without metal ions. On the other hand, the PLB showed substrate specificity and required metal ions for alkaline activity.The cDNA sequence of the PLB was analyzed by a combination of several PCR procedures. The PLB encoded a protein consisting of 643 amino acids. The amino acid sequence contained a lipase consensus sequence (GxSxG) and catalytic arginine and aspartic acid motifs which were identified as the catalytic triad in the PLB from Kluyveromyces lactis, suggesting that the catalytic mechanism of the PLB is similar to that of cytosolic phospholipase A(2) (cPLA(2)), found in mammalian tissues. 相似文献
120.
A novel histone exchange factor, protein phosphatase 2Cgamma, mediates the exchange and dephosphorylation of H2A-H2B 下载免费PDF全文
Kimura H Takizawa N Allemand E Hori T Iborra FJ Nozaki N Muraki M Hagiwara M Krainer AR Fukagawa T Okawa K 《The Journal of cell biology》2006,175(3):389-400
In eukaryotic nuclei, DNA is wrapped around a protein octamer composed of the core histones H2A, H2B, H3, and H4, forming nucleosomes as the fundamental units of chromatin. The modification and deposition of specific histone variants play key roles in chromatin function. In this study, we established an in vitro system based on permeabilized cells that allows the assembly and exchange of histones in situ. H2A and H2B, each tagged with green fluorescent protein (GFP), are incorporated into euchromatin by exchange independently of DNA replication, and H3.1-GFP is assembled into replicated chromatin, as found in living cells. By purifying the cellular factors that assist in the incorporation of H2A-H2B, we identified protein phosphatase (PP) 2C gamma subtype (PP2Cgamma/PPM1G) as a histone chaperone that binds to and dephosphorylates H2A-H2B. The disruption of PP2Cgamma in chicken DT40 cells increased the sensitivity to caffeine, a reagent that disturbs DNA replication and damage checkpoints, suggesting the involvement of PP2Cgamma-mediated histone dephosphorylation and exchange in damage response or checkpoint recovery in higher eukaryotes. 相似文献