Aims:To isolate an antagonist for use in the biological control of phytopathogenic fungi including Colletotrichum gloeosporioides, then to purify and characterize the biocontrol agent produced by the antagonist. Methods and Results: Bacteria that exhibited antifungal activity against the causative agent pepper anthracnose were isolated from soil, with Bacillus thuringiensis CMB26 showing the strongest activity. A lipopeptide produced by B. thuringiensis CMB26 was precipitated by adjusting the pH 2 with 3 N N HCl and extracted using chloroform/ methanol (2 : 1, v/v) and reversed-phase HPLC. The molecular weight was estimated as 1447 Da by MALDI-TOF mass spectrometry. Scanning electron and optical microscopies showed that the lipopeptide has activity against Escherichia coli O157:ac88, larvae of the cabbage white butterfly (Pieris rapae crucivora) and phytopathogenic fungi. The lipopeptide had cyclic structure and the amino acid composition was LL-Pro, and L L-Ile in a molar ratio of 3 : 1 : 2 : 1 : 1 : 2 : 1 : 1. The purified lipopeptide showed the same amino acid composition as fengycin, but differed slightly in fatty acid composition, in which the double bond was at carbons 13-14 (m/z 303, 316) and there was no methyl group. Conclusion: A lipopeptide was purified and characterized from B. thuringiensis CMB26 and found to be similar to the lipopeptide fengycin. This lipopeptide can function as a biocontrol agent, and exhibits fungicidal, bactericidal, and insecticidal activity. Significance and Impact of the Study: Compared with surfactin and iturin, the lipopeptide from B. thuringiensis CMB26 showed stronger antifungal activity against phytopathogenic fungi. This lipopeptide is a candidate for the biocontrol of pathogens in agriculture.
Epstein-Barr virus (EBV)is associated with about 6 to 16% of gastric carcinoma cases worldwide. Expression of the EBV microRNAs (miRNAs) was observed in B cells and nasopharyngeal carcinoma cells infected with EBV. However, it is not clear if the EBV miRNAs are expressed in EBV-associated gastric carcinomas (EBVaGCs). We found that BART miRNAs but not BHRF1 miRNAs were expressed in EBV-infected gastric carcinoma cell lines and the tumor tissues from patients as well as the animal model. The expression of viral miRNAs in EBVaGCs suggests that these EBV miRNAs may play important roles in the tumorigenesis of EBVaGCs.
Simvastatin (SV), a HMG-CoA reductase inhibitor, is widely used for the treatment of hyperlipidaemia. The objectives of the present study were to develop a population pharmacokinetic-pharmacodynamic (PK-PD) model for simvastatin and to evaluate its usefulness in predicting the dose-response relationship of simvastatin in patients with hyperlipidaemia. The data were obtained from a drug-drug interaction study to assess the effect of aspirin on the PK of simvastatin. Twenty-seven healthy volunteers were given simvastatin 40 mg daily for 14 days in whom aspirin 100 mg q.d. was co-administered after day 8. Full PK studies were performed on days 1, 7 and 14 in addition to trough sampling on days 5, 6, 12 and 13. Low-density lipoprotein-cholesterol (LDL-C) levels were also measured serially. Then, a population PK-PD model for simvastatin and its active metabolite, simvastatin acid (SVA), was developed using mixed effect methods (NONMEM Ver. 6.2). A simple linear PK model with parent and metabolite compartments provided the best fit for the 2647 concentrations of simvastatin and sim-vastatin acid, and a turnover model was used to describe the change in LDL-C levels. The dose-response curve simulated from the final model and those obtained from the literature overlapped very closely. No influence of aspirin was observed in PK or PD. A simple PK-PD model developed using only 2-week study data from fewer than 30 healthy volunteers successfully predicted the dose-response relationship of simvastatin in patients when compared with published data. Simvastatin (SV) is a HMG-CoA reductase inhibitor effective in the treatment of hypercholesterolaemia and hypertri-glyceridaemia [1]. It is widely used to reduce the risk of cardiovascular morbidity and mortality [2] and thromboem-bolic stroke in high-risk patients [3,4]. After oral administration , simvastatin is rapidly absorbed (t max of 1-2 hr) [5,6] and eliminated. Less than 10% of the peak HMG-CoA reductase inhibitory activity remains after 12 hr (t 1 ⁄ 2 = 2-5 hr) [5,7]. Once administered, simvastatin rapidly undergoes reversible non-enzymatic or carboxylesterase-mediated conversion to its active metabolite, simvastatin acid (SVA), in the liver, intestinal mucosa and plasma [1,8]. CYP450 is also known to metabolize a small fraction of simvastatin. Simvastatin acid prevents HMG-CoA reductase from converting HMG-CoA to mevalonate, which is a rate-limiting step in cholesterol biosynthesis [9]. Inhibition of the HMG-CoA reductase in the liver results in the reduction in cholesterol synthesis. Moreover, the up-regulation of low-density lipoprotein (LDL) receptors located on the cell membranes of the liver and extrahepatic tissues thereby also contributes to the reduction in plasma LDL-cholesterol (LDL-C) concentrations [10]. There are many reports on the safety, efficacy and metabolism of simvastatin. To date, there have been no published population pharmacokinetic-pharmacodynamic (PK-PD) models for simvastatin or simvastatin acid. Recently, we performed a drug-drug interaction s...
We confirmed that BISAP is an accurate means of risk stratification in AP within 24 hours of presentation.
The population clearance and volume of distribution in our burn patients were significantly greater than those reported in non-burn patients. The simulation of 1000 virtual patients' plasma meropenem concentration treated with 1000 mg (30 min infusion) every 8 h based upon the model predicted the probability of achieving the time above MIC >40% of the dosing interval as 58.9% for Pseudomonas aeruginosa isolated from three university hospitals in Korea.
BackgroundAs EBV-associated gastric cancer has unique features that are different from EBV (-) gastric cancer, EBV is considered to have a key role in gastric carcinogenesis. It has been reported that viral latent membrane protein 2A (LMP2A) in EBV-transformed tumor cells activates the phosphatidylinositol 3-kinase (PI3K)/AKT pathway, which provides a survival signal and chemo-resistance to cytotoxic anti-cancer drugs. This study was to evaluate anti-proliferative effect and cell cycle change when 5-FU and LY294002 (LY), a selective inhibitor of PI3K, were treated separately or combined with different schedules in EBV positive gastric cancer cell line, SNU-719.MethodsAfter single treatment and sequential combination of 5-FU and LY, cytotoxic activity was measured by MTS assay. When 5-FU and LY were treated in single and sequential combinations, the expression of p-AKT, p-NFkB, p-p53 and bcl-2 was observed on different concentrations by Western blot analysis. We also investigated the effect on apoptosis and cell cycle distribution using flow cytometry. The LMP2A siRNA inhibition was done to confirm the reversal of decreased 5-FU activity and p-AKT.ResultsWhen 5-FU was sequentially combined with LY, the combination index (CI) value indicated synergistic anti-proliferative effect. The expression of p-AKT and p-NFκB was upregulated by 5-FU alone but sequential treatment of 5-FU and LY decreased the expression of both p-AKT and p-NFκB. When 5-FU was combined with LY, G0/G1 and sub G1 cell population (%) increased. When 5-FU was added to the cells transfected with LMP2A siRNA, its anti-proliferative effect increased and the expression of p-AKT decreased. In sequential combination of 5-FU and LY, the expression of p-p53 was increased and bcl-2 expression was diminished compared to 5-FU alone.ConclusionThese data suggest that sequential combination of 5-FU and LY induce synergistic cytotoxicity and overcome intrinsic and acquired resistance of 5-FU via downregulation of activated p-AKT and mitochondria-dependent apoptosis in EBV gastric cancer cell line, SNU-719.
Helicobacter pylori CagA directly injected by the bacterium into epithelial cells via a type IV secretion system, leads to cellular changes such as morphology, apoptosis, proliferation and cell motility, and stimulates gastric carcinogenesis. We investigated the effects of cytotoxin-associated gene A (CagA) and gastrokine 1 (GKN1) on cell proliferation, apoptosis, reactive oxygen species (ROS) production, epithelial-mesenchymal transition (EMT) and cell migration in CagA- or GKN1-transfected gastric epithelial cells and mucosal tissues from humans and mice infected with H.pylori. On the molecular level, H.pylori CagA induced increased cell proliferation, ROS production, antiapoptotic activity, cell migration and invasion. Moreover, CagA induced activation of NF-κB and PI3K/Akt signaling pathways and EMT-related proteins. In addition, H.pylori CagA reduced GKN1 gene copy number and expression in gastric cells and mucosal tissues of humans and mice. However, GKN1 overexpression successfully suppressed the carcinogenic effects of CagA through binding to CagA. These results suggest that GKN1 might be a target to inhibit the effects from H.pylori CagA.
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