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81.
Evaluation of Francisella tularensis ΔpdpC as a candidate live attenuated vaccine against respiratory challenge by a virulent SCHU P9 strain of Francisella tularensis in a C57BL/6J mouse model
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Deyu Tian Akihiko Uda Eun‐sil Park Akitoyo Hotta Osamu Fujita Akio Yamada Kazuhiro Hirayama Kozue Hotta Yuuki Koyama Mika Azaki Shigeru Morikawa 《Microbiology and immunology》2018,62(1):24-33
Francisella tularensis, which causes tularemia, is an intracellular gram‐negative bacterium. F. tularensis has received significant attention in recent decades because of its history as a biological weapon. Thus, development of novel vaccines against tularemia has been an important goal. The attenuated F. tularensis strain ΔpdpC, in which the pathogenicity determinant protein C gene (pdpC) has been disrupted by TargeTron mutagenesis, was investigated as a potential vaccine candidate for tularemia in the present study. C57BL/6J mice immunized s.c. with 1 × 106 CFUs of ΔpdpC were challenged intranasally with 100× the median lethal dose (LD50) of a virulent SCHU P9 strain 21 days post immunization. Protection against this challenge was achieved in 38% of immunized C57BL/6J mice administered 100 LD50 of this strain. Conversely, all unimmunized mice succumbed to death 6 days post challenge. Survival rates were significantly higher in vaccinated than in unimmunized mice. In addition, ΔpdpC was passaged serially in mice to confirm its stable attenuation. Low bacterial loads persisted in mouse spleens during the first to tenth passages. No statistically significant changes in the number of CFUs were observed during in vivo passage of ΔpdpC. The inserted intron sequences for disrupting pdpC were completely maintained even after the tenth passage in mice. Considering the stable attenuation and intron sequences, it is suggested that ΔpdpC is a promising tularemia vaccine candidate. 相似文献
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Yuko Katayama Hitoshi Tajiri Kanae Tada Shintaro Okada Wen-yan Tong Satoshi Ishido Hak Hotta 《Microbiology and immunology》1998,42(1):75-79
An infant born prematurely and infected with hepatitis C virus (HCV) one month after birth was followed for 4.5 years. The patient did not produce detectable anti-HCV antibodies until two years after the onset of hepatitis. Before seroconversion, a single clone of HCV, as determined by quasispecies of the hypervariable region (HVR) of the HCV genome, was almost exclusively found in the serum. After seroconversion, however, another distinct lineage of HCV clones replaced it within half a year. As HCV infection persisted further in the presence of anti-HCV antibodies, many derivatives of both sequence lineages emerged to exhibit the typical quasispecies feature of HVR sequences. Neither seroconversion nor the changes in HVR sequences influenced the serum aminotransferase titers. 相似文献
84.
Thirty-one achromogenic and 40 melanogenic Pseudomonas aeruginosa strains were studied with 10 monovalent typing sera (3). Twenty-one of the achromogenic (67.7%) and seven of the melanogenic (17.5%) strains were agglutinated by one of the 10 typing sera. Ten achromogenic and 33 melanogenic strains were not agglutinated by any of the 10 typing sera. As far as this set of antisera is concerned, the typability of achromogenic and melanogenic P. aeruginosa strains appears to be much lower than that of the chromogenic, nonmelanogenic strains of the species reported previously. 相似文献
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T Yamaoka Y Hotta K Kobayashi Y Kimura 《International journal of biological macromolecules》1999,25(1-3):265-271
Poly-L-lactides containing beta-alkyl alpha-malate-units were prepared by ring-opening copolymerizations of L-lactide with 3-(s)-[(benzyloxycarbonyl)methyl]- (BMD) and 3-(s)-[(dodecyloxycarbonyl)methyl]-1,4-dioxane-2,5-diones (DMD). The solution-cast films of these copolymers were alkali-treated to form a carboxyl-functionalized surface on which cell-binding Arg-Gly-Asp tripeptide (RGD) was immobilized with dicyclohexylcarbodiimide as coupling agent. For the copolymer of L-lactide and BMD the benzyl groups were removed by catalytic hydrogenolysis to obtain a fully carboxyl-functionalized copolymer (PLGM), and RGD was immobilized on the surface of its cast film. All the RGD-immobilized films thus prepared exhibited improved cell attachment compared with the original films. The cell attachment increased with increasing amount of immobilized RGD, which depended on the composition of the alpha-malate units in the copolymer. The RGD-immobilized PLGM films were degraded rapidly during the cell culture, while the RGD-immobilized films of the beta-alkyl alpha-malate-containing polymers survived the cell culture with little degradation. The rate of hydrolysis increased with increasing content of alpha-malate units for both series, depending on the structure of the protecting groups of the beta-carboxyl. These results suggest that the RGD-immobilized polymers could be a new class of functional bioresorbable polymer having improved cell-attachment and adjustable hydrolysis rate. 相似文献
89.
Although the involvement of nitric oxide (NO) in an increasing gastric mucus metabolism has been reported, information on whether or not its activation is limited to the specific mucus-producing cells is lacking. In this paper, we report the effect of the exogenous NO-donor, isosorbide dinitrate (ISDN), and second-generation histamine H2 receptor antagonist roxatidine (2-acetoxy-N-(3-[m-(1-piperidinylmethyl)phenoxy]propyl)acetamide hydrochloride) which is demonstrated to accelerate the mucin metabolism mediated by endogenous NO, on the mucin biosynthesis in distinct sites and layers of the rat gastric mucosa using an organ culture technique. Radiolabeled mucin was obtained from the tissue of full-thickness and the deep corpus layer, and the antrum of the rat stomach incubated for 5 hr with [3H]glucosamine(GlcN) in vitro. With the addition of ISDN to the culture medium, 3H-labeled mucin in the full-thickness corpus mucosa increased to 124-145% of the control (p<0.05), but not in the antrum. This stimulation of the mucin synthesis disappeared by the removal treatment of the surface mucous cell layer which has immunoreactivity of neuronal NO synthase. Similarly, roxatidine stimulated the mucin biosynthesis in the full-thickness corpus mucosa, but not in the gland mucous cell layer. These results suggest that the stimulation of the mucin biosynthesis mediated by NO is restricted to the surface mucous cells of the rat gastric oxyntic mucosa. 相似文献
90.
T Shirai C Mitsuyama Y Niwa Y Matsui H Hotta T Yamane H Kamiya C Ishii T Ogawa K Muramoto 《Structure (London, England : 1993)》1999,7(10):1223-1233
BACKGROUND: Congerin I is a member of the galectin (animal beta-galactoside-binding lectin) family and is found in the skin mucus of conger eel. The galectin family proteins perform a variety of biological activities. Because of its histological localization and activity against marine bacteria and starfish embryos, congerin I is thought to take part in the eels' biological defense system against parasites. RESULTS: The crystal structure of congerin I has been determined in both lactose-liganded and ligand-free forms to 1. 5 A and 1.6 A resolution, respectively. The protein is a homodimer of 15 kDa subunits. Congerin I has a beta-sheet topology that is markedly different from those of known relatives. One of the beta-strands is exchanged between two identical subunits. This strand swap might increase the dimer stability. Of the known galectin complexes, congerin I forms the most extensive interaction with lactose molecules. Most of these interactions are substituted by similar interactions with water molecules, including a pi-electron hydrogen bond, in the ligand-free form. This observation indicates an increased affinity of congerin I for the ligand. CONCLUSIONS: The genes for congerin I and an isoform, congerin II, are known to have evolved under positive selection pressure. The strand swap and the modification in the carbohydrate-binding site might enhance the cross-linking activity, and should be the most apparent consequence of positive selection. The protein has been adapted to functioning in skin mucus that is in direct contact with surrounding environments by an enhancement in cross-linking activity. The structure of congerin I demonstrates the emergence of a new structure class by accelerated evolution under selection pressure. 相似文献