The constructed avirulent biplasmid Vibrio cholerae strain KM182 pro ducing cholera toxin B subunit and Escherichia coli colonization factor CFA/1 (providing for antitoxic and anti-colonization immunity formation, correspon dently) was demonstrated to protect immunized model laboratory animals from experimental cholera caused by the virulent Vibrio cholerae O139 strain. The optimal doses for immunization and challenging were determined.
Alcohol-related liver disease is the most common cause of liver disease worldwide. The purpose of this work is the establishment of the influence of the transcription factor κB on the development of oxidative-nitrosative stress in the liver of rats under conditions of chronic alcohol intoxication. The experiments were performed on 24 male Wistar rats weighing 180-220 g. The animals were divided into 4 groups of 6 animals: control; animals, which were administered NF-κB inhibitor, namely ammonium pyrrolidinedithiocarbamate (PDTC) at a dose of 76 mg/kg 3 times a week; animals, on which we simulated alcoholic hepatitis and group of combination of alcoholic hepatitis and NF-κB inhibitor. We determined in rat liver homogenate the following biochemical parameters: the activity of NO synthase isoforms, superoxide dismutase and catalase activity, the concentration of malonic dialdehyde, the concentration of peroxynitrite, nitrites and nitrosothiols, concentration of sulfide anion and superoxide anion radical production. Chronic alcohol intoxication led to increased production of reactive oxygen and nitrogen species on the background of decreased antioxidant activity, thus intensifying lipid peroxidation in the liver. Blockade of the transcription factor κB during chronic alcohol intoxication despite an increase in antioxidant activity and decrease of reactive oxygen and nitrogen species production did not ameliorate oxidative damage to the liver. Blockade of activation of nuclear transcription factor κB in rat liver by PDTC reduced the risk of oxidative damage to hepatocytes, but did not reduce the risk of developing nitrosative damage to hepatocytes. Keywords: chronic alcohol intoxication, NF-κB, oxidative-nitrosative stress, PDTC, rat liver
The aim: To determine the dynamics of changes in metric parameters of the duct system of rat submandibular glands in normal conditions and chronic ethanol intoxication.
Materials and methods: 50 albino outbred rats were involved in the experiment. 10 animals were assigned in the control group, 40 animals – in the experimental group.
Animals were sacrificed on 5, 9, 12 and 30 days by overdose of thiopental anesthesia. Pieces of the submandibular glands were embedded into epon-812 according to the conventional technique.
Results: On day 5 of the experiment the lumen diameter of intercalated duct reduced by 9,15 % (р <0,05). The lumen diameter of the striated ducts was by 5,29 % significantly greater than the values in controls (р <0,05). The lumen diameter of the granular ducts reduced by 2,45 % (р <0,05). On day 30 of the experiment the height of the epithelial cells of the intercalated ducts was by 8,47 % significantly less (р <0,05), the height of the epithelial cells of the striated ducts was by 12,27 % less (р <0,05) and the height of the epithelial cells of the granular ducts was by 11,96 % less (р <0,05) than the values in controls.
Conclusions: No recovery of parameters occurs by day 30 of the experiment, indicating the depletion of the secretory epithelium of the duct system, due to dystrophic changes caused by vascular disorder in the microvasculature.
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