The Effects of Chronic Iron Overload in Rats with Acute Acetaminophen Overdose.

BACKGROUND AND AIMS: Rats are resistant to acetaminophen (APAP) hepatotoxicity. In this study, we evaluated whether by augmentation of the hepatic oxidative stress, through the induction of hepatic iron overload (IO), it will be feasible to overcome the resistance of rats to the toxic effects of APAP. METHOD: Rats with no or increased hepatic IO. RESULTS: Providing iron by diet induced hepatocellular IO, while parenteral iron administration induced combined hepatocellular and sinusoidal cell IO. APAP administration to rats with no IO caused an increase in hepatic oxidative stress and a decrease in the hepatic antioxidative markers but no hepatic cell damage. APAP administration to rats with hepatocellular IO further amplified the hepatic oxidative stress but induced only hepatocyte feathery degeneration without any increase in serum aminotransaminases. APAP administration to rats with combined hepatocellular and sinusoidal cell IO caused an unexpected decrease in hepatic oxidative stress and increase in the hepatic antioxidative markers and no hepatic cell damage. No hepatic expression of activated c-jun-N-terminal kinase was detected in any of the rats. CONCLUSIONS: The hepatic distribution of iron may affect its oxidative/antioxidative milieu. Augmentation of hepatic oxidative stress did not increase the rats' vulnerability to APAP.

Liver toxicity of thioacetamide is increased by hepatocellular iron overload.

An increase in hepatic iron concentration might exacerbate liver injury. However, it is unknown whether hepatic iron overload may exacerbate acute liver injury from various toxins. Therefore, we evaluated how manipulations to increase hepatic iron concentration affected the extent of acute liver injury from thioacetamide. In this study, we used rats with either "normal" or increased hepatic iron concentration. Iron overload was induced by either providing excess iron in the diet or by injecting iron subcutaneously. Both routes of providing excess iron induced an increase in hepatic iron overload. Meanwhile, the subcutaneous route induced both hepatocellular and sinusoidal cell iron deposition; the oral route induced lesser degree of hepatic iron concentration and only hepatocellular iron overload. Thioacetamide administration to the rats with "normal" hepatic iron concentration induced hepatic cell necrosis and apoptosis associated with a remarkable increase in serum aminotransaminases and depletion of hepatic glutathione and other antioxidative indices. Thioacetamide administration to the iron-overloaded rats exacerbated the extent of liver injury only in the rats orally induced with iron overload. In the rats subcutaneously induced with iron overload, the extent of liver injury from thioacetamide was not different from that observed in the rats with "normal" iron overload. It was concluded that the outcome of thioacetamide-induced acute liver injury may depend on both the level of hepatic iron concentration and on the cellular distribution of iron. While isolated hepatocellular iron overload may exacerbate thioacetamide-induced acute liver injury, a combined hepatocellular and sinusoidal cell iron deposition, even at high hepatic iron concentration, had no such an effect.

Effects of antihypertensive and triglyceride-lowering agents on hepatic copper concentrations in rats with fatty liver disease.

Copper deficiency had been suggested to link between fructose-enriched diet (FED) and the development of non-alcoholic fatty liver disease (NAFLD). In this study, we characterized changes in hepatic copper concentrations and hepatic oxidative milieu, in rats with the metabolic syndrome and NAFLD as a result of FED with pharmacological manipulations to reduce blood pressure or plasma triglycerides. Changes in plasma and hepatic copper concentrations were correlated with changes observed in the immunohistochemical hepatic expression of copper-zinc-superoxide dismutase (CuZnSOD; SOD1), metallothionein (MT) and nitrotyrosine (NITT). FED administration was associated with a 2.2-fold reduction in hepatic copper concentrations, a decrease in the hepatic SOD1 expression, disappearance of the hepatic MT expression and increase in the hepatic NITT expression. Bezafibrate administration restored the hepatic copper concentrations and the hepatic SOD1 expression to levels that were observed in the control rats. A significant positive correlation between hepatic copper concentrations and the values of hepatic SOD1 expression of each animal included in this study was found. Administration of either captopril or bezafibrate increased hepatic MT expression, however, to levels that were lower than those observed in the control group. Administration of either amlodipine, or captopril or bezafibrate to the FED rats, had no effect on hepatic NITT expression. NAFLD development in FED rats is associated with a decrease in hepatic copper concentrations that is associated with a decrease in the hepatic SOD1 expression. Bezafibrate administration increases hepatic copper concentrations and restores the hepatic SOD1 expression.

Effects of antihypertensive and triglyceride lowering agents on splenocyte apoptosis in rats with fatty liver.

Individuals with the metabolic syndrome (MS) and non-alcoholic fatty liver disease (NAFLD) have an increased incidence of infection and infection-related mortality. Rats given fructose-enriched diet (FED) develop the MS including NAFLD. In this study, we characterized changes in splenocyte apoptosis in FED rats given medications to treat various components of the MS. Apoptosis of splenocytes may induce immunosuppression. Splenocyte apoptosis was evaluated by activated caspase-3 immunohistochemistry in the periarterial sheath (PALS), (a T cell area), follicles (B cell area), marginal (B cell area) and in the red pulp zones. FED administration caused an enormous increase in splenocyte apoptosis in all of the spleen zones: PALS (+2966%), follicles (+3025%), marginal (+5228%) and red pulp (+7000%). Administration of captopril to the FED rats was associated with a further increase in the splenocyte apoptosis only in the marginal (150%), PALS (+105%) and red pulp (+67%) zones. Bezafibrate administration to the FED rats was associated with no further increase in apoptosis rates. Amlodipine administration to the FED rats was associated with almost complete amelioration of the splenocyte apoptosis that was induced by the FED diet. These pharmacological manipulations were also associated with changes in the hepatic lipids composition, and oxidative milieu that did not correlate to the changes in splenocyte apoptosis. NAFLD in FED rats is associated with an increase in splenic apoptosis. Agents administered to treat components of the MS in FED rats may lead to divergent changes in the splenic histology and splenocyte apoptosis.

Hepatic effects of rosiglitazone in rats with the metabolic syndrome.

Rats given fructose-enriched diet develop many characteristics of the human metabolic syndrome and non-alcoholic fatty liver disease. In this study, we characterized the hepatic effects of rosiglitazone in fructose-enriched diet rats. Rats were randomly divided into three groups. One group was maintained on standard rat chow diet for 6 weeks, whereas the other two groups were given fructose-enriched diet for 6 weeks. Four weeks after the initiation of fructose-enriched diet, one of the fructose-enriched diet groups was also given rosiglitazone (10 mg/kg/day) for an additional 2 weeks. Rosiglitazone administration to the fructose-enriched diet rats was associated with decreases in the following parameters: blood pressure (-17%), plasma triglycerides (-62%), hepatic total lipids (-19%), hepatic triglycerides (-61%), hepatic malondialdehyde (-88%), glutathione reductase activity (-84%). An increase in adiponectin plasma levels (+329%), hepatic phospholipids (+46%), hepatic alpha-tocopherol concentrations (+24%) and hepatic paraoxonase activity (+68%) was observed. Rosiglitazone caused a decrease in hepatic macrovesicular steatosis score but no change in hepatic fibrosis. Administration of rosiglitazone, to rats with the metabolic syndrome has limited hepatic favourable effects: it improves hepatic lipid metabolism, decreases macrovesicular steatosis and improves some of the hepatic oxidative-anti-oxidative milieu but has no effect on hepatic fibrosis.

Effects of amlodipine, captopril, and bezafibrate on oxidative milieu in rats with fatty liver.

Oxidative stress may initiate significant hepatocyte injury in subjects with fatty liver. We characterized changes in hepatic oxidative anti-oxidative parameters in rats given a fructose-enriched diet (FED) with and without medications to reduce blood pressure or plasma triglycerides. FED rats had an increase in malondialdehyde (MDA) concentration, a reduction in alpha-tocopherol concentration, a reduction in paraoxonase (PON) activity, an increase in glutathione peroxidase (GSH-Px), and glutathione reductase (GSSG-R) activity. Amlodipine increased PON and GSH-Px, but decreased GSSG-R activity and alpha-tocopherol concentration. Captopril decreased MDA concentration and the activity of both GSH-Px and GSSG-R, but increased alpha-tocopherol concentration and PON activity. Bezafibrate increased alpha-tocopherol concentration and PON activity, but decreased the activity of GSSG-R. Animals with fatty liver exhibit an increase in peroxidative stress but also a defect in anti-oxidative pathways. Drugs administered to treat hypertension and hypertriglyceridemia could lead to a variety of changes in the hepatic oxidative, anti-oxidative milieu.

Fructose-induced fatty liver disease: hepatic effects of blood pressure and plasma triglyceride reduction.

The most known risk factor for nonalcoholic fatty liver disease (NAFLD) is the metabolic syndrome. In this study, we characterized changes in liver pathology, hepatic lipid composition, and hepatic iron concentration (HIC) occurring in rats given fructose-enriched diet (FED), with and without therapeutic maneuvers to reduce blood pressure and plasma triglycerides. Rats were given FED or standard rat chow for 5 weeks. Rats on FED were divided into 4 groups: receiving amlodipine (15 mg/kg per day), captopril (90 mg/kg per day), bezafibrate (10 mg/kg per day) in the last 2 weeks, or a control group that received FED only. FED rats had hepatic macrovesicular and microvesicular fat deposits develop, with increase in hepatic triglycerides (+198%) and hepatic cholesterol (+89%), but a decrease in hepatic phospholipids (-36%), hypertriglyceridemia (+223%), and hypertension (+15%), without increase in HIC. Amlodipine reduced blood pressure (-18%), plasma triglycerides (-12%), but there was no change in hepatic triglycerides and phospholipids concentrations. Captopril reduced blood pressure (-24%), plasma triglycerides (-36%), hepatic triglycerides (-51%), and hepatic macrovesicular fat (-51%), but increased HIC (+23%), with a borderline increase in hepatic fibrosis. Bezafibrate reduced plasma triglycerides (-49%), hepatic triglycerides (-78%), hepatic macrovesicular fat (-90%), and blood pressure (-11%). We conclude that FED rats can be a suitable model for human NAFLD. Drugs administered to treat various aspects of the metabolic syndrome could have hepatic effects. An increase in HIC in rats with NAFLD could be associated with increased hepatic fibrosis.