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71.
To develop a drug delivery system for acute hepatic injury, we prepared Z-Asp, a general caspase inhibitor, encapsulated in poly (DL-lactic-co-glycolic acid) (50:50) (mol/mol) nanoparticles bearing poly-(N-p-vinylbenzyl-O--d-galactopyranosyl-[1-4]-d-gluconamide) (PVLA) on their surface. These nanoparticles specifically interacted with the primary cultured hepatocytes via the asialoglycoprotein receptors on surface and effectively inhibited the fulminant hepatic cell death induced by anti-mouse Fas antibody while these particles did not affect the cell death of an asialoglycoprotein receptor null cell line, A20. These nanoparticles are thus a promising therapy for acute liver injury. 相似文献
72.
Characteristics and Efficiency of Glutamine Production by Coupling of a Bacterial Glutamine Synthetase Reaction with the Alcoholic Fermentation System of Baker’s Yeast
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Shinji Wakisaka Yoshifumi Ohshima Masahiro Ogawa Tatsurokuro Tochikura Takashi Tachiki 《Applied microbiology》1998,64(8):2952-2957
Glutamine production with bacterial glutamine synthetase (GS) and the sugar-fermenting system of baker’s yeast for ATP regeneration was investigated by determining the product yield obtained with the energy source for ATP regeneration (i.e., glucose) for yeast fermentation. Fructose 1,6-bisphosphate was accumulated temporarily prior to the formation of glutamine in mixtures which consisted of dried yeast cells, GS, their substrate (glucose and glutamate and ammonia), inorganic phosphate, and cofactors. By an increase in the amounts of GS and inorganic phosphate, the amounts of glutamine formed increased to 19 to 54 g/liter, with a yield increase of 69 to 72% based on the energy source (glucose) for ATP regeneration. The analyses of sugar fermentation of the yeast in the glutamine-producing mixtures suggested that the apparent hydrolysis of ATP by a futile cycle(s) at the early stage of glycolysis in the yeast cells reduces the efficiency of ATP utilization. Inorganic phosphate inhibits phosphatase(s) and thus improves glutamine yield. However, the analyses of GS activity in the glutamine-producing mixtures suggested that the higher concentration of inorganic phosphate as well as the limited amount of ATP-ADP caused the low reactivity of GS in the glutamine-producing mixtures. A result suggestive of improved glutamine yield under the conditions with lower concentrations of inorganic phosphate was obtained by using a yeast mutant strain that had low assimilating ability for glycerol and ethanol. In the mutant, the activity of the enzymes involved in gluconeogenesis, especially fructose 1,6-bisphosphatase, was lower than that in the wild-type strain. 相似文献
73.
Balance of Activities of Alcohol Acetyltransferase and Esterase in Saccharomyces cerevisiae Is Important for Production of Isoamyl Acetate 总被引:2,自引:0,他引:2
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Kiyoshi Fukuda Nagi Yamamoto Yoshifumi Kiyokawa Toshiyasu Yanagiuchi Yoshinori Wakai Katsuhiko Kitamoto Yoshiharu Inoue Akira Kimura 《Applied microbiology》1998,64(10):4076-4078
Isoamyl acetate is synthesized from isoamyl alcohol and acetyl coenzyme A by alcohol acetyltransferase (AATFase) in Saccharomyces cerevisiae and is hydrolyzed by esterases at the same time. We hypothesized that the balance of both enzyme activities was important for optimum production of isoamyl acetate in sake brewing. To test this hypothesis, we constructed yeast strains with different numbers of copies of the AATFase gene (ATF1) and the isoamyl acetate-hydrolyzing esterase gene (IAH1) and used these strains in small-scale sake brewing. Fermentation profiles as well as components of the resulting sake were largely alike; however, the amount of isoamyl acetate in the sake increased with an increasing ratio of AATFase/Iah1p esterase activity. Therefore, we conclude that the balance of these two enzyme activities is important for isoamyl acetate accumulation in sake mash. 相似文献
74.
Shinji Wakisaka Yoshifumi Ohshima Masahiro Ogawa Tatsurokuro Tochikura Takashi Tachiki 《Applied and environmental microbiology》1998,64(8):2952-2957
Glutamine production with bacterial glutamine synthetase (GS) and the sugar-fermenting system of baker’s yeast for ATP regeneration was investigated by determining the product yield obtained with the energy source for ATP regeneration (i.e., glucose) for yeast fermentation. Fructose 1,6-bisphosphate was accumulated temporarily prior to the formation of glutamine in mixtures which consisted of dried yeast cells, GS, their substrate (glucose and glutamate and ammonia), inorganic phosphate, and cofactors. By an increase in the amounts of GS and inorganic phosphate, the amounts of glutamine formed increased to 19 to 54 g/liter, with a yield increase of 69 to 72% based on the energy source (glucose) for ATP regeneration. The analyses of sugar fermentation of the yeast in the glutamine-producing mixtures suggested that the apparent hydrolysis of ATP by a futile cycle(s) at the early stage of glycolysis in the yeast cells reduces the efficiency of ATP utilization. Inorganic phosphate inhibits phosphatase(s) and thus improves glutamine yield. However, the analyses of GS activity in the glutamine-producing mixtures suggested that the higher concentration of inorganic phosphate as well as the limited amount of ATP-ADP caused the low reactivity of GS in the glutamine-producing mixtures. A result suggestive of improved glutamine yield under the conditions with lower concentrations of inorganic phosphate was obtained by using a yeast mutant strain that had low assimilating ability for glycerol and ethanol. In the mutant, the activity of the enzymes involved in gluconeogenesis, especially fructose 1,6-bisphosphatase, was lower than that in the wild-type strain.Glutamine is one of the most important compounds in nitrogen metabolism; it is not only a constituent of proteins but is also a donor of the amino (amido) moiety in the biosynthesis of other amino acids, purines, pyrimidines, pyridine coenzymes, and complex carbohydrates. Glutamine is also used in the treatment of gastric ulcers and has been produced commercially by direct fermentation with certain bacteria (6–10).In recent years, enzymatic synthesis has come to rival direct fermentation as a means of producing amino acids. In the case of glutamine, however, the need for a stoichiometric supply of ATP for the endoergonic reaction of glutamine synthetase (GS) precludes the development of an economically valuable method, unless ATP can be regenerated and recycled.Processes for the production of various substances using dried yeast cells as an enzyme source were established by Tochikura and colleagues (2, 4, 16, 18–20). The processes are driven by the chemical energy of ATP released by the alcoholic fermentation by the yeast, which has been wasted in alcoholic brewing (17). Tochikura and colleagues also designed a process in which the yeast fermentation of sugar is combined with an endoergonic reaction catalyzed by an enzyme from a different microorganism (3). The results suggest that the process offers the possibility of producing many compounds at a high yield by using various biosynthetic reactions and high concentrations of substrates. Tochikura et al. introduced the general idea of coupled fermentation with energy transfer for the process; its principle is indicated in Fig. Fig.1,1, with glutamine production as an example. Open in a separate windowFIG. 1Scheme of glutamine production by the coupled fermentation with energy transfer method. ∗1, glycolytic pathway is abridged. ∗2, inorganic phosphate (Pi) is recycled.In the process of coupled fermentation with energy transfer, a catalytic amount of ATP is regenerated with the energy of sugar fermented by yeast, in the form of baker’s yeast (4, 16, 18, 19, 23). The energy-utilizing system for the synthesis can involve the enzyme(s) of yeast itself or those of other organisms. It should be noted that, from another point of view, the use of the energy-utilizing system results in ADP regeneration to complete the fermentation of glucose, and that, if there is no ADP regeneration, the yeast fermentation of sugar can proceed only as follows, in the presence of inorganic phosphate (the Harden-Young effect of inorganic phosphate [1]), 2 · glucose + 2 · inorganic phosphate → fructose 1,6-bisphosphate (FBP) + 2 · C2H5OH + 2 · CO2 (Harden-Young equation), where ADP regeneration for the fermentation of 1 mol of glucose is carried out by the phosphorylation of another mole of glucose to FBP.We previously reported glutamine production, obtained by employing a combination of baker’s yeast cells and GS from Gluconobacter suboxydans, as the first application of the coupled fermentation with energy transfer method for the production of a nonphosphorylated compound (12, 13). In addition, we achieved high-yield glutamine production by using the Corynebacterium glutamicum (Micrococcus glutamicus) enzyme and larger amounts of the substrates (15). The maximum amounts of glutamine formed (23 to 25 g/liter) and the yield based on glutamate (50 to 100%) were to some extent satisfactory, but the yield based on the energy source (glucose) for ATP regeneration was not satisfactory (about 40% of the theoretical value; 2 mol of glutamine can be formed when 1 mol of glucose is consumed).In the present study, we examined the characteristics of glutamine production regarding product yield based on the energy source for ATP regeneration and regarding the reactivity of GS during glutamine production, which is closely related to the product yield. The results of preliminary attempts to improve glutamine production are also described. In these experiments, a yeast mutant which has a low assimilating ability for glycerol and/or ethanol was used. 相似文献
75.
The handling of hepatocytes, a major cell population in the liver, is an important technique in both liver tissue engineering and hepatology. However, these cells are so fragile that it has been impossible to harvest hepatocytes with high viability from tissue culture dishes after a period of culture in vitro. In this study, we employed an artificial substrate for transfection of multilayer hepatocytes and harvested these cells with high viability after transfection. Hepatocytes cultured on an amphiphilic artificial substrate form multilayer aggregates (spheroids) in the presence of growth factors during gene transfection with cation liposomes. Compared to cells cultured on a collagen-coated plate, these spheroids are easily harvested with high viability by pipetting in EDTA solution. In addition, these spheroids rapidly spread on collagen after transfer from the artificial substrate, demonstrating that hepatocytes in the center of the spheroids were viable. Epidermal growth factor (EGF) increased the transfection efficiency into hepatocytes while hepatocyte growth factor (HGF) alone did not increase the efficiency. However, HGF synergestically increased the effect of EGF on transfection. Interestingly, this transfection required the process of spheroid formation because the gene was not transfected once the spheroid formation completed or under conditions where hepatocytes did not form spheroids. This method using spheroidal hepatocytes for in vitro transfection is promising for the development of ex vivo gene therapy. 相似文献
76.
Development and evaluation of a multiplex PCR assay for rapid detection of toxigenic Vibrio cholerae O1 and O139 总被引:7,自引:0,他引:7
77.
78.
Masayuki OKAUE Kazunori YAMAMOTO Yoshifumi TOUYAMA Takeshi KAMEYAMA Mamoru TERAYAMA Takashi SUGIYAMA Kyouzou MURAKAMI Fuminori ITO 《Entomological Science》2007,10(4):337-342
The distribution of the Argentine ant, Linepithema humile, was investigated in 65 cities or towns along the Seto Inland Sea, western Japan in 2003–2005. Our results include all available information of their distribution in Japan until 2005. Argentine ants have invaded Aichi Prefecture (Tahara‐shi), Hyogo Prefecture (Kobe‐shi), Hiroshima Prefecture (Hiroshima‐shi, Fuchu‐cho, Hatsukaichi‐shi, Ono‐cho and Otake‐shi), and Yamaguchi Prefecture (Iwakuni‐shi and Yanai‐shi). The most widespread distribution was found around Hatsukaichi‐shi including the westernmost part of Hiroshima‐shi and the easternmost of Ono‐cho. 相似文献
79.
Riki Okita Diana Wolf Koichiro Yasuda Ai Maeda Takuro Yukawa Shinsuke Saisho Katsuhiko Shimizu Yoshiyuki Yamaguchi Mikio Oka Eiichi Nakayama Andreas Lundqvist Rolf Kiessling Barbara Seliger Masao Nakata 《PloS one》2015,10(10)
IntroductionSeveral cytotoxic anticancer drugs inhibit DNA replication and/or mitosis, while EGFR tyrosine kinase inhibitors inactivate EGFR signalling in cancer cell. Both types of anticancer drugs improve the overall survival of the patients with non-small-cell lung cancer (NSCLC), although tumors often become refractory to this treatment. Despite several mechanisms by which the tumors become resistant having been described the effect of these compounds on anti-tumor immunity remains largely unknown.MethodsThis study examines the effect of the cytotoxic drug Gemcitabine and the EGFR tyrosine kinase inhibitor Gefitinib on the expression of NK group 2 member D (NKG2D) ligands as well as the sensitivity of NSCLC cells to the NK-mediated lysis.ResultsWe demonstrate that Gemcitabine treatment leads to an enhanced expression, while Gefitinib downregulated the expression of molecules that act as key ligands for the activating receptor NKG2D and promote NK cell-mediated recognition and cytolysis. Gemcitabine activated ATM and ATM- and Rad-3-related protein kinase (ATR) pathways. The Gemcitabine-induced phosphorylation of ATM as well as the upregulation of the NKG2D ligand expression could be blocked by an ATM-ATR inhibitor. In contrast, Gefitinib attenuated NKG2D ligand expression. Silencing EGFR using siRNA or addition of the PI3K inhibitor resulted in downregulation of NKG2D ligands. The observations suggest that the EGFR/PI3K pathway also regulates the expression of NKG2D ligands. Additionally, we showed that both ATM-ATR and EGFR regulate MICA/B via miR20a.ConclusionIn keeping with the effect on NKG2D expression, Gemcitabine enhanced NK cell-mediated cytotoxicity while Gefitinib attenuated NK cell killing in NSCLC cells. 相似文献
80.
Seiji Sato Yoshifumi Saisho Kinsei Kou Shu Meguro Masami Tanaka Junichiro Irie Toshihide Kawai Hiroshi Itoh 《PloS one》2015,10(3)