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41.
Hoegen T Tremel N Klein M Angele B Wagner H Kirschning C Pfister HW Fontana A Hammerschmidt S Koedel U 《Journal of immunology (Baltimore, Md. : 1950)》2011,187(10):5440-5451
Streptococcus pneumoniae meningitis causes brain damage through inflammation-related pathways whose identity and mechanisms of action are yet unclear. We previously identified caspase-1, which activates precursor IL-1 type cytokines, as a central mediator of inflammation in pneumococcal meningitis. In this study, we demonstrate that lack of the inflammasome components ASC or NLRP3 that are centrally involved in caspase-1 activation decreases scores of clinical and histological disease severity as well as brain inflammation in murine pneumococcal meningitis. Using specific inhibitors (anakinra and rIL-18-binding protein), we further show that ASC- and NLRP3-dependent pathologic alterations are solely related to secretion of both IL-1β and IL-18. Moreover, using differentiated human THP-1 cells, we demonstrate that the pneumococcal pore-forming toxin pneumolysin is a key inducer of IL-1β expression and inflammasome activation upon pneumococcal challenge. The latter depends on the release of ATP, lysosomal destabilization (but not disruption), and cathepsin B activation. The in vivo importance of this pathway is supported by our observation that the lack of pneumolysin and cathepsin B inhibition is associated with a better clinical course and less brain inflammation in murine pneumococcal meningitis. Collectively, our study indicates a central role of the NLRP3 inflammasome in the pathology of pneumococcal meningitis. Thus, interference with inflammasome activation might be a promising target for adjunctive therapy of this disease. 相似文献
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A coupled assay has been worked out to study spinach (Spinacea oleracea L.) nitrate reductase under low, more physiological concentrations of NADH. In this assay the reduction of nitrate is coupled to the oxidation of malate catalyzed by spinach NAD-malate dehydrogenase. The use of this coupled system allows the assay of nitrate reductase activity at steady-state concentrations of NADH below micromolar. We have used this coupled assay to study the kinetic parameters of spinach nitrate reductase and to reinvestigate the putative regulatory role of adenine nucleotides, inorganic phosphate, amino acids, and calcium and calmodulin. 相似文献
44.
Involvement of na in active uptake of pyruvate in mesophyll chloroplasts of some c(4) plants : na/pyruvate cotransport 下载免费PDF全文
An artificial Na+ gradient across the envelope (Na+ jump) enhanced pyruvate uptake in the dark into mesophyll chloroplasts of a C4 plant, Panicum miliaceum (NAD-malic enzyme type) (J Ohnishi, R Kanai [1987] FEBS Lett 219:347). In the present study, 22Na+ and pyruvate uptake were examined in mesophyll chloroplasts of several species of C4 plants. Enhancement of pyruvate uptake by a Na+ jump in the dark was also seen in mesophyll chloroplasts of Urochloa panicoides and Panicum maximum (phosphoenolpyruvate carboxykinase types) but not in Zea mays or Sorghum bicolor (NADP-malic enzyme types). In mesophyll chloroplasts of P. miliaceum and P. maximum, pyruvate in turn enhanced Na+ uptake in the dark when added together with Na+. When flux of endogenous Na+ was measured in these mesophyll chloroplasts preincubated with 22Na+, pyruvate addition induced Na+ influx, and the extent of the pyruvate-induced Na+ influx positively correlated with that of pyruvate uptake. A Na+/H+ exchange ionophore, monensin, nullified all the above mutual effects of Na+ and pyruvate in mesophyll chloroplasts of P. miliaceum, while it accelerated Na+ uptake and increased equilibrium level of chloroplast 22Na+. Measurements of initial uptake rates of pyruvate and Na+ gave a stoichiometry close to 1:1. These results point to Na+/pyruvate cotransport into mesophyll chloroplasts of some C4 plants. 相似文献
45.
Comparison of the kinetic properties,inhibition and labelling of the phosphate translocators from maize and spinach mesophyll chloroplasts 总被引:4,自引:0,他引:4
The kinetic properties of the phosphate translocator from maize (Zea mays L.) mesophyll chloroplasts have been determined. We have used a double silicone-oil-layer centrifugation system in order to obtain true initial uptake rates in forward-reaction experiments. In addition, it was possible to perform back-exchange experiments and to study the effects of illumination and of preloading the chloroplasts with different substrates on transport. It is shown that the phosphate translocator from mesophyll chloroplasts of maize, a C4 plant, transports inorganic phosphate and phosphorylated C3 compounds in which the phosphate group is linked to the C3 atom (e.g. 3-phosphoglycerate and triose phosphate). The affinities of the transported metabolites towards the translocator protein are about one order of magnitude higher than in mesophyll chloroplasts from the C3 plant, spinach. In contrast to the phosphate translocator from C3-mesophyll chloroplasts, that of C4-mesophyll chloroplasts catalyzes in addition the transport of C3 compounds where the phosphate group is attached to the C2 atom (e.g. 2-phosphoglycerate, phosphoenolpyruvate). The phosphate translocator from both chloroplast types is strongly inhibited by pyridoxal-5-phosphate (PLP), 2,4,6-trinitrobenzenesulfonic acid and 4,4-diisothiocyanostilbene-2,2-disulfonic acid (DIDS). In the case of the spinach translocator protein these inhibitors were shown to react with the same amino-acid residue at the substrate binding site, and one molecule of either DIDS or PLP is obviously required per substrate binding site for the inactivation of the translocation process. In the functionally active dimeric translocator protein only one substrate-binding site appears to be accessible at a particular time, indicating that the site might be exposed to each side of the membrane in turn. Using [3H]-H2DIDS for the labelling of maize mesophyll envelopes the radioactivity was found to be associated with two polypeptides of about 29 and 30 kDa. Since Western-blot analysis showed that only the 30 kDa polypeptide reacted with an antiserum directed against the spinach phosphate translocator protein it is suggested that this polypeptide presumably represents the phosphate translocator from maize mesophyll chloroplasts.Abbreviations DIDS
4,4-diisothiocyanostilbene-2,2-disulfonic acid
- PEP
phosphoenolpyruvate
- 2-,3-PGA
2-,3-phosphoglycerate
- PLP
pyridoxal-5-phosphate
- SDS-PAGE
sodium dodecyl sulfate-polyacrylamide gel electrophoresis
- TNBS
2,4,6-trinitrobenzenesulfonic acid
- triose P
triose phosphate
This work was supported by the Deutsche Forschungsgemeinschaft 相似文献
46.
The metabolite levels in the mesophyll of leaves of Zea mays L. have been compared with the regulatory properties of the cytosolic fructose-1,6-bisphosphatase from the mesophyll to show how withdrawal of triose phosphate for sucrose synthesis is reconciled with generation of the high concentrations of triose phosphate which are needed to allow intercellular diffusion of carbon during photosynthesis. i) A new technique is presented for measuring the intercellular distribution of metabolites in maize. The bundle-sheath and mesophyll tissues are partially separated by differential homogenization and filtration through nylon nets under liquid nitrogen. ii) considerable gradients of 3-phosphoglycerate, triose phosphate, malate and phosphoenolpyruvate exist between the mesophyll and bundle sheath which would allow intercellular shuttles to be driven by diffusion. These gradients could result from the distribution of electron transport and the Calvin cycle in maize leaves. iii) consequently, the mesophyll contains high concentrations of triose phosphate and fructose-1,6-bisphosphate. iv) Most of the regulator metabolite fructose-2,6-bisphosphate, is present in the mesophyll. v) The cytosolic fructose-1,6-bisphosphatase has a lower substrate affinity than that found for the enzyme from C3 species, especially in the presence of inhibitors like fructose-2,6-bisphosphate. vi) This lowered affinity for substrate makes it possible to reconcile use of triose phosphate for sucrose synthesis with the maintenance of the high concentration of triose phosphate in the mesophyll needed for operation of photosynthesis in this species.Abbreviations DHAP
Dihydroxyacetonephosphate
- Fru1,6-bisP
fructose-1,6-bisphosphate
- Fru2,6bisP
fructose-2,6-bisphosphate
- PEP(Case)
phosphoenolpyruvate (carboxylase)
- PGA
3-phosphoglycerate
- Rubisco
ribulose-1,5-bisphosphate carboxylase 相似文献
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Caryn L. Heldt Ashish Saksule Pratik U. Joshi Majid Ghafarian 《Biotechnology progress》2018,34(4):1027-1035
Vaccine manufacturing has conventionally been performed by the developed world using traditional unit operations like filtration and chromatography. There is currently a shift in the manufacturing of vaccines to the less developed world, requiring unit operations that reduce costs, increase recovery, and are amenable to continuous manufacturing. This work demonstrates that mannitol can be used as a flocculant for an enveloped and nonenveloped virus and can purify the virus from protein contaminants after microfiltration. The recovery of the virus ranges from 58 to 96% depending on virus, the filter pore size, and the starting concentration of the virus. Protein removal of 80% was achieved for the small nonenveloped virus using a 0.1 µm filter because proteins were not flocculated with the virus and flowed through the filter. It is hypothesized that mannitol dehydrates the viral surface by controlling the water structure surrounding the virus. Without the ability to become compact, as occurs with proteins, the virus aggregates in the presence of osmolytes and proteins do not. Osmolyte flocculation is a scalable process using high flux microfilters. It has been applied to both an enveloped and nonenveloped virus, making this process friendly to a variety of vaccine and gene therapy products. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 34:1027–1035, 2018 相似文献
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Adenine nucleotide translocation in spinach chloroplasts 总被引:20,自引:0,他引:20
Heldt HW 《FEBS letters》1969,5(1):11-14