Pancreatic acinar cell function and morphology in rats fed zinc-deficient and marginal zinc-deficient diets

The prevalence of marginal zinc nutriture in several populations of people in this country and the lack of reports on the effect of marginal zinc nutriture in experimental animals prompted us to look at pancreatic acinar cell function and morphology in rats fed a zinc-deficient diet ad libitum: 4 and 50 ppm zinc-supplemented diets in amounts isocaloric to a zinc-deficient diet and Rodent-Blox fed ad libitum for a period of 49 +/- 1 (SEM) days. Because of a diminished rate of energy expenditure in zinc-deficient rats, animals receiving 50 ppm zinc-supplemented diets were offered less food, resulting in decreased body weight and pancreas weight, DNA, RNA, total protein, lipase, amylase, and secretion of protein. Specific changes due to zinc deficiency included (a) further decrease in body weight and (b) increase in content, specific activity, and secretion of lipase. Both the size and volume fraction of zymogen granules were reduced in zinc deficiency. The lumina of acinar and small ducts were collapsed with paucity of secretion products. Zinc deficiency may therefore lead to a defect in discharge mechanism. A further reduction in volume fraction of zymogen granules in the 4 ppm zinc-supplemented group was associated with increased secretion of serine proteases (trypsinogen and chymotrypsinogen), which constitute approximately 46% of total secretory protein in the pancreas under normal dietary conditions. This indicated an accelerated discharge due to an unknown mechanism. Changes in the secretion of digestive enzymes in the present study simulated ethanol-induced secretory alterations that were previously observed. Because abnormal zinc nutriture and chronic alcoholism are commonly associated, it is speculated that zinc deficiency may play a role in the ethanol-induced secretory alterations.     

Influence of dietary zinc on hepatic collagen and prolyl hydroxylase activity in alcoholic rats.

The effects of dietary zinc on hepatic collagen and prolyl hydroxylase activity in normal and alcoholic rats has been investigated in four groups of pair-fed male Wistar rats given either liquid ethanol or a control diet for 12 wk. Each group of pair-fed animals received a diet with a different zinc concentration (standard diet, 7.6 mg/L; low-zinc diet, 3.4 mg/L; zinc-supplemented diet, 76 mg/L; and zinc-extrasupplemented, 300 mg/L. There were no significant differences in hepatic collagen concentration and prolyl hydroxylase activity between alcoholic and normal rats receiving a standard diet (collagen, 77 +/- 5 and 73 +/- 6 micrograms/mg protein; and prolyl hydroxylase; 37 +/- 26 and 36 +/- 22 cpm/mg protein). Alcoholic rats fed a low-zinc diet showed increased prolyl hydroxylase activity (75 +/- 10 cpm/mg protein, p less than 0.05), although no changes in hepatic collagen (77 +/- 10 micrograms/mg protein) were observed in comparison with rats fed a standard alcoholic diet. By contrast, hepatic collagen was significantly lower in alcoholic rats fed a zinc-supplemented diet (66 +/- 4 and 63 +/- 3 micrograms/mg protein, p less than 0.05 and p less than 0.01, respectively), and hepatic prolyl hydroxylase activity was particularly lower in rats receiving zinc 300 mg/L (18 +/- 20 cpm/mg protein). Similar effects were observed in normal rats. We conclude that dietary zinc influences hepatic prolyl hydroxylase activity and collagen deposition in alcoholic rats, and in consequence, the control of dietary zinc is necessary to assess the effects of alcohol on collagen metabolism in rats.     

Interaction between marginal zinc deficiency and chronic alcoholism: pancreatic structure and function in rats in vitro

The present study was done to determine interaction of ethanol and marginal zinc nutriture on morphology and function of rat pancreas. Sprague-Dawley rats were maintained on Wayne Rodent-Blox ad libitum; marginal zinc-deficient diet plus ethanol ad libitum and pair fed with animals fed marginal zinc-deficient liquid diet and zinc-supplemented liquid diet with ethanol for 33 (+/- 1 SEM) days. Body, pancreas, liver, heart, and kidney weights were determined, and studies of pancreatic DNA, RNA, total proteins and newly labeled proteins, amylase, lipase, trypsinogen, and chymotrypsinogen were done on pancreatic lobules in vitro. Ethanol feeding independent of the zinc content of the diet caused a decrease in zinc content of the liver, body weight, liver and pancreas weight, pancreatic DNA, total protein, and amylase concentration and an increase in lipase and trypsinogen concentrations and in secretion of amylase and lipase. Interaction of the marginal zinc diet and ethanol feeding resulted in a decreased synthesis of RNA and secretion of newly synthesized protein and an increase in secretion of serine proteases. Morphological studies revealed a reduction in the number of zymogen granules in animals fed low levels of zinc, also with an accumulation of lipid droplets when the diet contained ethanol. These studies confirmed our previous observations of specific injury to the pancreas due to marginal zinc nutriture or to ethanol, independent of each other. Marginal zinc nutriture in concert with ethanol resulted in impaired RNA synthesis and secretion of nascent proteins and increased secretion of serine proteases. These data indicate that altered zinc metabolism induced by ethanol per se may contribute to ethanol-induced disturbance of pancreatic function.     

Biochemical indicators of vitamin A depletion in children with cholestasis

Biochemical indicators of vitamin A status were measured in 24 children (1 month to 6 years old) with severe cholestasis starting early in life and in 21 children (3 months to 13 years old) with liver disease but without cholestasis. Liver vitamin A concentrations, expressed as micrograms of retinol per gram of liver (mean +/- S.D.), were 6.3 +/- 7.1 (range: 0.14 to 28) and 143 +/- 108 (range: 18 to 424), respectively, in cholestatic and non-cholestatic children. In infants less than 6 months of age, liver vitamin A values less than 10 micrograms per gm were found in 14 of 17 cholestatic children but in none of 3 non-cholestatic subjects. Plasma vitamin A values, expressed as micrograms of retinol per deciliter (mean +/- S.D.), were 23 +/- 18 (range: 3 to 62) and 46 +/- 33 (range: 14 to 125), respectively, for the two groups. Plasma retinol values less than 10 micrograms per dl were always associated with liver concentrations less than 10 micrograms per gm. Plasma retinol-binding protein was only reduced to 71% of control values in cholestatic children. The fatty acid composition of liver retinyl esters was unaffected by any condition studied. Infants with chronic cholestasis are in a precarious nutritional status very early in life relative to liver reserves of vitamin A. Plasma vitamin A values, unless less than 10 micrograms retinol per dl, are poor indicators of inadequate vitamin A status.     

Regeneration of T-cell helper function in zinc-deficient adult mice

Diets deficient in zinc cause rapid atrophy of the thymus and loss of T-cell helper function in the young adult A/J mouse. Because zinc deficiency, as well as other nutritional deficiences, causes extensive damage to the immune system, the question arose as to whether zinc-deficient mice could repair the thymus and fully regenerate T-cell helper function if returned to diets containing adequate amounts of zinc. Five-week-old A/J female mice were fed either a zinc-deficient (<1 mug of Zn per g) or a zinc-adequate (50 mug of Zn per g) diet for 31 days. Histological examination of thymuses from the zinc-deficient mice revealed that the cortex was preferentially involuted and the thymus was about one-third of normal size. The direct plaque-forming cells produced per mouse spleen in response to immunization with sheep erythrocytes was 34% of normal; indirect plaque-forming cells were 18% of normal (Jerne plaque assay). After the deficient mice had been fed a zinc-adequate diet for 1 week, their response was nearly normal, except that the indirect response was 68% of controls; in this same period, the thymuses of these mice had quadrupled in size and exhibited a greatly enlarged cortex repopulated with immature thymocytes. By 2 weeks, the thymuses of the previously zinc-deficient mice were normal in size and appearance; however, there was a slight increases in numbers of indirect plaque-forming cells. By 4 weeks, the thymus weights, direct and indirect plaque-forming cell counts, and secondary response of the previously deficient mice were normal. Mice that were nearly athymic after 45 days of dietary zinc deficiency were also able to fully reconstruct the thymus and regenerate T-cell helper function. The data show that the zinc-deficient young adult mouse has the capacity to fully restore the T-cell-dependent antibody-mediated responses upon nutritional repletion.     

Fatty acid-binding protein: a major contributor to the ethanol-induced increase in liver cytosolic proteins in the rat

To study the acute and chronic effects of ethanol on hepatic fatty acid-binding protein, rats were pair-fed with liquid diets containing 36% of energy either as ethanol or as additional carbohydrate for 4 to 5 weeks. Animals were killed 90 min after intragastric administration of diets with or without ethanol. Alcohol feeding markedly increased liver triglycerides, with a modest rise in nonesterified fatty acids. Alcohol-fed rats developed hepatomegaly, with a 48% increase in hepatic cytosolic proteins. Fatty acid binding was first assessed by the kinetics of [14C]palmitate binding to cytosolic proteins. The maximal binding capacity more than doubled in the cytosol of the ethanol-fed rats compared to pair-fed controls, whereas the dissociation constant increased by 64%. Acute ethanol administration (3 gm per kg body weight) either to ethanol-fed or control rats did not have a significant effect. To identify the fatty acid-binding protein, labeled cytosolic proteins were fractionated by gel filtration: most of the cytosolic fatty acids eluted as a single peak in the 12,000 to 18,000 molecular weight region corresponding to the hepatic fatty acid-binding protein. The increase in this protein, confirmed by radial immunodiffusion (27.0 +/- 1.4 mg per 100 gm body weight vs. 11.2 +/- 1.6, in controls; p less than 0.01), accounted for 22% of the total rise in cytosolic protein induced by chronic ethanol feeding.     

The rat liver microcirculation in alcohol-induced hepatomegaly

It has been suggested that hepatocyte enlargement can lead to compression of the extracellular space (sinusoidal and interstitial) and induce portal hypertension. However, this hypothesis has never been tested by measuring the vascular and extravascular spaces in the intact liver. The aim of the present study was to investigate the effects of chronic alcohol intake on the hepatic microcirculation using Goresky's multiple-indicator dilution technique in the isolated perfused rat liver. Female rat littermates were pair-fed either ethanol (n = 7) or an isocaloric carbohydrate diet (n = 7) for 21 days. As expected, chronic alcohol intake produced a significant increase in liver/body weight ratio (+32%, p less than 0.01) and hepatocyte size (+45%, p less than 0.001), which was accompanied by a marked increase in the cellular water space (control: 3.3 +/- 0.6 ml; ethanol-fed: 4.9 +/- 0.9 ml; p less than 0.001). When expressing data per total liver, the sinusoidal space was similar in the two groups (control: 1.87 +/- 0.2; ethanol-fed: 1.95 +/- 0.2 ml; not significant), whereas the interstitial space was increased in alcohol rats compared to controls (albumin space +58%, p less than 0.01; sucrose space +51%, p less than 0.01). In alcoholic rats, the sinusoidal space was probably stretched, with an overall reduced transversal diameter, as suggested by the reduced values found when data were expressed per gm of liver weight. However, despite this finding and the enlargement of the liver and hepatocytes observed in alcoholic rats, similar values were obtained between the two groups for the portal perfusion pressure and thus the intrahepatic vascular resistance.(ABSTRACT TRUNCATED AT 250 WORDS)     

Continuous administration of growth hormone does not prevent the decrease of IGF-I gene expression in zinc-deprived rats despite normalization of liver GH binding

To determine the role of reduced liver GH binding (GHR) in the decreased IGF-I observed in zinc-deficient (ZD) animals, we investigated the effects of GHR restoration on growth, insulin-like growth factor I (IGF-I) and its binding proteins (IGFBPs) in ZD rats. Rats were fed for 4 weeks a zinc-deficient diet (ZD Zn, 0 ppm) or a Zinc-normal diet (pair-fed or PF; Zn, 75 ppm). ZD rats received continuous s.c. infusion of bovine growth hormone (bGH) (100 microg/d) for the 4 weeks or for the last week of the study. Compared with pair-fed rats, zinc deficiency produced attenuated weight gain (-43%, P < 0.001), lower serum IGF-I and liver IGF-I mRNA (-52%, P < 0.001 and -44%, P < 0.05), lower serum IGFBPs (IGFBP-3 -66%, IGFBP-4 -48%, 34-29 kDa IGFBP cluster -53%, P < 0.05), lower liver GHR and its mRNA (-20 and -34%, P < 0.05) and lower serum growth hormone binding protein (GHBP) and its mRNA (-56 and -48%, P < 0.05; all comparisons vs PF rats). Exogenous bGH given continuously normalized the liver GHR, serum GHBP and their liver mRNAs, as well as circulating IGFBPs. Despite restoration of GHR and GHBP to normal, growth, serum IGF-I and its liver mRNA were not stimulated by GH infusion in ZD rats, indicating that IGF-I synthesis requires the presence of zinc in addition to GH, and that the lack of growth-promoting action of GH in zinc-deprived rats results from a defect beyond GH binding to its liver receptors.     

Alpha-tocopherol deficiency fails to aggravate toxic liver injury but liver injury causes alpha-tocopherol retention.

The possible aggravation of liver injury by impaired cellular antioxidant function was investigated. A vitamin E-deficient diet (0.5 mg/kg alpha-tocopherol; control 100 mg/kg) significantly reduced rat liver alpha-tocopherol concentrations after 4 weeks (1.8 +/- 1.7 micrograms/g; control 34.4 +/- 2.4 micrograms/g, p < 0.001). The effects of copper loading (Cu, 3 g/kg diet); galactosamine (GalN, 0.85 g/kg i.p.); or carbon tetrachloride (CCl4, 10 mmol/kg i.p.) were examined. Serum aspartate transaminase activity was elevated slightly by vitamin E deficiency but not by hepatic copper accumulation. In vitamin E-replete (E+) and vitamin E-deficient (E-) rats, GalN or CCl4 caused a large and comparable elevation in serum AST and OCT activity. This effect on AST was markedly reduced by copper loading in vitamin E replete (E+) rats, but in E(-) rats copper had significantly less protective effect. Copper also diminished the OCT response to GalN in E+, though not E-, rats. A significant rise in total hepatic alpha-tocopherol content followed administration of GalN or CCl4 in both normocupric and copper-laden E(-) rats. Thus alpha-tocopherol deficiency (a) was not hepatotoxic per se; (b) failed to potentiate the toxicity of copper, GalN or CCL4; but (c) partially abolished the protection by copper against toxin-induced liver injury. Retention of hepatic alpha-tocopherol after liver damage may partly explain low serum vitamin E levels seen in clinical liver disease.     

Reduced binding and removal of chylomicron remnants by ethionine-induced premalignant liver

The suppression of cholesterol synthesis by dietary cholesterol which occurs in the livers of normal animals is absent in hepatomas. This abnormality has been reported to occur in the livers of animals fed hepatocarcinogens, even before there is any histologic evidence of malignancy (premalignant liver). We have proposed, in an earlier publication, that the deletion of feedback inhibition of cholesterol synthesis in malignancy is due, at least in part, to the loss of receptors which bind chylomicron remnants, the lipoprotein particles that transport dietary cholesterol to the liver. This hypothesis was further tested in the premalignant liver model. Rats were fed a diet containing 0.25% of a known hepatic carcinogen, ethionine. After 3 to 5 weeks on this diet, the liver had no histologic evidence of malignancy; the rate of [14C]acetate incorporation into cholesterol by liver homogenates was elevated as compared to that of controls (5.13 +/- 0.70 vs. 0.65 +/- 0.14 nmoles cholesterol per gm per hr), and in contrast to control animals, this was not reduced by the inclusion of 5% cholesterol in the diet for 48 hr before killing. The serum (44.4 +/- 6.3 vs. 51.4 +/- 3.8 mg per 100 ml) and hepatic (15.8 +/- 0.2 vs. 17.0 +/- 0.4 micrograms per mg protein) cholesterol contents were not substantially different in ethionine-fed as compared to control-fed rats. Hepatic cholesterol content increased when cholesterol was included in the diet (15.8 +/- 0.2 to 25.8 +/- 7.3 micrograms per mg protein and 17.0 +/- 0.4 to 36 +/- 3.7 micrograms per mg protein in ethionine-fed and control-fed animals, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)     

Hepatic metabolism during acute ethanol administration: a phosphorus-31 nuclear magnetic resonance study on the perfused rat liver under normoxic or hypoxic conditions

The effect of ethanol metabolism on the energetic parameters and intracellular pH of the isolated perfused rat liver from fed rats was studied by phosphorus-31 nuclear magnetic resonance spectroscopy. This technique allowed us to analyze nondestructively and in real time the role of low oxygen tension on the possible injurious effect of ethanol on the liver cells. A quantitative analysis of nuclear magnetic resonance data recorded on a perfused rat liver within a 30 mm diameter probe has been performed at 80.9 MHz. Under normoxic and normothermic conditions, the levels of phosphorylated metabolites detected by nuclear magnetic resonance were 2.8, 0.3 and 2 mumoles per gm liver wet weight for ATP, ADP and inorganic orthophosphate, respectively. The cytosolic pH was 7.25 +/- 0.05. During a period of 4 min of hypoxia induced by reducing the perfusion flow rate to 25% of its initial value (i.e., from 12 ml to 3 ml per min per 100 gm body weight), the level of ATP dropped to 2.2 mumoles per gm liver wet weight. Concomitantly, ADP and inorganic orthophosphate increased to 0.6 and 3.3 mumoles per gm liver wet weight. Cytosolic pH fell to 7.02 +/- 0.05. Perfusion of the liver with a Krebs medium containing 70 mM (0.4%) ethanol induced a sharp decrease in intracellular inorganic orthophosphate to reach 1.3 mumole per gm liver wet weight and after a lag time of 4 to 6 min, a decrease in ATP level (2.15 mumoles per gm liver wet weight). A large increase in phosphomonoesters (mainly sn-glycerol 3-phosphate) up to 6 mumoles per gm liver wet weight was also observed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Centrilobular liver necrosis induced by hypoxia in chronic ethanol-fed rats

Rats fed ethanol from 21 to 130 days were subjected to one or more episodes of hypoxia (6% O2) in order to determine if ethanol predisposed to centrilobular liver necrosis induced by hypoxia. Pair-fed control rats were fed the diet regimen in parallel with the ethanol-fed rats through an indwelling gastric cannula. The diet and ethanol were fed continuously 24 hr per day so as to maintain high blood alcohol levels in the ethanol-fed rats. Serum enzyme levels, SGOT and SGPT were measured before and after the hypoxic episodes as an indicator of centrilobular necrosis. Animal livers were studied for centrilobular necrosis by light and electron microscopy. Necrosis was documented to be present when flocculent densities were found in hepatocytic mitochondria or the plasma membrane permitted lanthanum entrance into the cell. The results showed that ethanol feeding to maintain high blood alcohol levels did increase the propensity of the liver to undergo centrilobular necrosis when the rats were subjected to hypoxia (1 hr 45 min to 5 hr 30 min). Centrilobular necrosis was observed in the ethanol-fed rats only. Serum enzyme levels (SGPT and SGOT) rose to very high levels in these rats when they were permitted to die of hypoxia. Serum sediment from the ethanol-fed rats contained numerous cell fragments and free organelles. Since the plasma membranes were missing along the sinusoidal face of centrilobular hepatocytes and microbodies were present, it was concluded that the cell fragments in the blood had originated from necrotic hepatocytes.     

Severe and progressive steatosis and focal necrosis in rat liver induced by continuous intragastric infusion of ethanol and low fat diet

Blood alcohol levels (BAL) were maintained at high levels (overall mean +/- S.D. achieved in 14 alcoholic rats was 216.0 +/- 120.1 mg%) in male Wistar rats for 15 to 85 days by continuous intragastric infusion of ethanol and nutritionally defined low fat liquid diet. The ethanol intake was progressively increased from 32% of total calories up to 41.4% in order to maintain high BAL. Pair-fed animals received isocaloric glucose solution and the liquid diet. Despite the low level of dietary fat (4.9% of total calories), histopathological evaluation of the liver revealed severe and progressive fatty infiltration in the alcoholic rats. In addition, following 30 days of intoxication, one third of the animals showed focal necrosis with mononuclear cell infiltration in centrilobular areas of the livers. This was correlated with the markedly elevated levels of SGOT and SGPT in these animals. Pair-fed controls showed no abnormality in the morphology of liver or blood chemistry. Chemical quantitation of liver triglycerides confirmed the histological observation, with triglyceride levels of 61.51 +/- 16.45 and 89.61 +/- 5.94 mg per gm at 30 and 85 days, respectively. Most importantly, the degree of steatosis was tightly and significantly correlated with the mean BAL achieved (r = 0.80, p less than 0.001). These data represent the first confirmation of the hypothesis that continuously high BAL correlate with the severity of alcohol-induced liver pathology.     

Hepatic adenine nucleotide metabolism measured in vivo in rats fed ethanol and a high fat-low protein diet

Rats fed a diet high in fat and low in protein continuously infused by intragastric cannula were given ethanol for 2 to 6 months in order to examine the response of liver adenine nucleotides to changes in systemic PO2. Hepatic adenine nucleotides were measured in vivo monthly using liver obtained by biopsy from rats while a high blood alcohol level was maintained. Ethanol decreased hepatic ATP and the total adenylate pool, but did not change the levels of ADP and AMP. Adenylate energy charge showed only a tendency to be decreased. Carotid arterial PO2 was mildly but significantly lower in ethanol-fed rats compared to the pair-fed controls. Pure O2 inhalation for 3 min increased the PO2 four times in the ethanol and control-fed rats, and tended to increase ATP and decrease ADP in ethanol-fed rats as well as pair-fed controls. It restored the energy charge to a normal level in the ethanol-fed rats. Ten per cent O2 + 90% N2 inhalation for 3 min decreased the PO2 to 40 mm Hg in both the ethanol-fed and control rats, and this rapidly decreased ATP. This effect was significantly greater in the ethanol-fed rats compared to the controls. The total adenylate pool and the energy charge were decreased only in ethanol-fed rats. The results show that the reduced energy stores in the rat liver induced by ethanol are rapidly responsive to changes in PO2. Thus, the livers of ethanol-fed rats were more vulnerable to transient hypoxia than were controls.     

Chronic alcoholism enhances hepatocarcinogenicity of diethylnitrosamine in rats fed a marginally methyl-deficient diet

To determine whether the chronic consumption of ethanol was capable of enhancing the hepatocarcinogenic activity of diethylnitrosamine per se, or through the accentuation of a methyl deficiency, two groups (A and B) of Sprague-Dawley female rats were fed for 10 months either a 20% casein basal diet marginally deficient in methyl, or the same diet supplemented with choline (1 gm per 100 gm) and folic acid (0.54 mg per 100 gm). Both groups were offered a drinking ethanol solution, while two other nonalcohol control groups (C and D) were isocalorically pair-fed to Groups A and B, and received diets in which the alcohol consumed by the corresponding groups was replaced by isocaloric amounts of sucrose. A baseline nonalcohol Group E, isocalorically pair-fed to Group A, received the intact basal diet of Group A and water. One day before the initiation of the experiment, and again 2 months later, all rats from the five groups were injected with a single i.p. dose of diethylnitrosamine (100 mg per kg). The growth attained by all groups was statistically similar. Hepatic triglycerides in Group A were significantly higher than in all the other groups. While in Group A primary hepatocellular carcinomas and renal tumors were encountered at the end of the experiment in 3 of 6 and in 2 of 6 rats, respectively, no malignancies were observed in any of the other groups. These results indicate that chronic ethanol consumption enhances the hepatocarcinogenic and renal tumorigenic activity of diethylnitrosamine, and strongly suggest that this action is mediated through the accentuation of methyl deficiency.     

Combined treatment with vitamins E and C in experimental myocardial infarction in pigs

The effect of two different combined treatments with vitamin E acetate and vitamin C on infarct size and recovery of regional myocardial function was investigated in ischemic, reperfused porcine hearts. The left anterior descending coronary artery was distally ligated in 30 thoracotomized pigs for 45 minutes followed by 3 days of reperfusion. Infarct size was determined as the ratio of infarcted (tetrazolium stain) to ischemic (dye technique) myocardium. Regional myocardial function was assessed by sonomicrometry. Ten pigs received vitamin E acetate (12 gm intravenously three times for 1 week) before ischemic and vitamin C (4.4 gm intravenously) before reperfusion (therapy A). Another 10 pigs were treated with vitamin E acetate (12 gm intraarterially) and vitamin C (4.4 gm intravenously) during ischemia (therapy B). An additional 10 pigs served as a control group. Global hemodynamics did not differ significantly among the groups before and during ischemia. Mean plasma concentrations of vitamin E amounted to 107 micrograms/ml in group A, 16 micrograms/ml in group B, and 0.9 micrograms/ml in the control group at the onset of reperfusion. Therapy A reduced the size of the infarct from 73 +/- 12% to 47 +/- 16% of the region at risk (p less than 0.005) and improved regional systolic shortening from 0 +/- 7% to 11 +/- 6% at 3 days after reperfusion (p less than 0.01). Therapy B decreased the size of the infarct to 64 +/- 9% of the region at risk (p = 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression of lipopolysaccharide binding protein and its receptor CD14 in experimental alcoholic liver disease

AIM:To evaluate the relationship between the expression oflipopolysaccharides(LPS)binding protein(LBP)and CD14mRNA and the severity of liver injury in alcohol-fed rats.METHODS:Twenty Wistar rats were divided into twogroups:ethanol-fed group(group E)and control group(group C).Group E was fed with ethanol(5-12g.kg~(-1).d~(-1))and group C received dextrose instead of ethanol.Rats ofthe two groups were sacrificed at 4 weeks and 8 weeks.Levels of endotoxin and alanine transaminase(ALT)inblood were measured,and liver pathology was observedunder light and electronic microscopy.Expressions of LBPand CD14 mRNA In liver tlssues were determined by RT-PCRanalysis.RESULTS:Plasma endotoxln levels were increased moresignificantly in group E(129±21 )ng.L~(-1) and(187±35)ng·L~(-1) at 4 and 8 wk than in control rats(48±9) ng·L~(-1) and(53±11)ng·L~(-1),respectively(P<0.05).Mean values ofplasma ALT levels were(1867±250)nkat·L~(-1) and(2450±367) nkat.L~(-1) in Group E.The values were increased moredramatically In ethanol-fed rats than in Group C after 4 and 8weeds.In liver section from ethanol-fed rats,there weremarked pathological changes(steatosis,cell infiltration andnecrosis).In ethanol-fed rats,ethanol administration led toa significant increase in LBP and CD14 mRNA levelscompared with the control group(P<0.05).CONCLUSION:Ethanol administration led to a significantIncrease in endotoxin levels in serum and LBP and CD14mRNA expressions in liver tissues.The increase of LBP andCD14 mRNA expression might wake the liver more sensitiveto endotoxin and liver injury.     

Effects of ethanol feeding and withdrawal on plasma glutathione elimination in the rat

Chronic ethanol feeding increases hepatic turnover and sinusoidal efflux of glutathione in rats. The present study was performed to determine whether the observed increase in glutathione efflux was due to increased extrahepatic requirements for glutathione. The concentration and disposition of plasma glutathione were determined in rats fed liquid diets containing 36% of calories as ethanol or pair-fed an isocaloric mixture with carbohydrate replacing ethanol calories for 5 to 8 weeks. The half-life and plasma clearance of [35S]glutathione were found to be similar in ethanol-fed and control rats and in rats withdrawn 24 hr from ethanol. Uptakes of the sulfur moiety of [35S]glutathione by kidney, jejunal mucosa, liver, lung, spleen, muscle and heart were also unchanged by ethanol feeding. The plasma glutathione concentration was significantly higher in ethanol-withdrawn rats 22.30 +/- 3.06 nmoles per ml (p less than 0.05) compared to pair-fed controls (13.51 +/- 2.04), while rats continuing to drink ethanol had intermediate levels (16.96 +/- 2.22). Plasma cysteine levels were slightly, but not significantly, higher in ethanol-fed rats. These findings suggest that increased sinusoidal efflux of glutathione in ethanol-fed rats is due to a direct effect of ethanol on hepatic glutathione transport and not due to an alteration in extrahepatic disposition of glutathione. In order to characterize further the effects of ethanol feeding on glutathione-dependent detoxification, activities of glutathione S-transferase, glutathione reductase and gamma-glutamyltransferase were determined.(ABSTRACT TRUNCATED AT 250 WORDS)     

Studies of metabolic abnormality of zinc in chronic liver diseases (report 2)--basic examination of its effects on pathophysiology

Zinc is an essential trace metal in the body. It's deficiency is known to induce skin lesions and hypogeusia. It also has an important role as a core element of various enzymes. In the liver, ornithine carbamyl transferase (OCT), a metal enzyme in the urea cycle, where ammonium is metabolized, contains zinc. The previous report showed that patients with liver cirrhosis (LC) were in a state of zinc deficiency. The present study investigated the possible involvement of hypozincemia in the functional failure of the urea cycle in hepatic insufficiency in rats with experimental LC. Compared with control rats, rats with LC showed a decrease in the serum zinc concentration (LC 118.6 +/- 33.7 micrograms/dl: control 161.6 +/- 13.9 micrograms/dl p less than 0.05), a decrease in the zinc content of the liver (LC 81.4 +/- 16.3 micrograms/g DW: control 108.1 +/- 6.9 micrograms/g DW p less than 0.01), a decrease in the OCT activity in the liver (LC 24.7 +/- 4.0 U/mg prot: control 42.4 +/- 3.8 U/mg prot p less than 0.01), and an increase in serum ammonium (LC 87.2 +/- 38.5 micrograms/dl: control 38.5 +/- 10.6 micrograms/dl p less than 0.05). There was a significant correlation between the zinc content and OCT activity in the cirrhotic liver (r = 0.6075, p less than 0.01). In addition, to evaluate the effect of dietary zinc on rats with LC, we divided these rats into two groups and fed them a diet with or without zinc for 4 weeks.(ABSTRACT TRUNCATED AT 250 WORDS)