Chronic high doses of thioacetamide followed by vitamin A modify dolichol, dolichol isoprenoids, and retinol content in rat liver cells

Our line of researches follows the hypothesis that dolichol and retinol metabolism might be interrelated and involved in liver fibrosis. To this end, in this study rats were subjected to chronic treatment with thioacetamide (TAA) (300 mg/L liquid diet) for 1 and 2 months and, after liver damage had occurred, supplemented with vitamin A before sacrifice. Dolichol, dolichol isoprene units, and retinol content were determined in isolated parenchymal and sinusoidal liver cells (hepatic stellate cells; Kupffer cells; sinusoidal endothelial cells). Dolichol increased in hepatocytes after TAA treatment, with or without vitamin A. Dolichol decreased in the other cells. Retinol in general decreased. In hepatocytes, retinol decreased only on normal nutrition, while the vitamin A load was taken up normally. The percentages of dolichol isoprene units (Dol-16 to Dol-20, in rats) confirm that Dol-18, which was not modified in percentage by TAA on normal nutrition, did not increase after vitamin A, as it did in control cells (7-12%). The behavior of Dol-18 was similar in all the cells studied. Vitamin A might reveal a latent damage produced by TAA on dolichol homologues. These data support previous hypotheses that the action of TAA depends on the administration modality, the dosage, and the diet, and that Dol-18 might have different functions and compartmentalization in the cells. Furthermore, the results support the hypothesis that dolichol chain length might be interrelated with retinol metabolism, perhaps through their metabolites.     

Effect of a load of Vitamin A after acute thioacetamide intoxication on dolichol, dolichol isoprenoids and retinol content in isolated rat liver cells

This study examines how treatment with a single dose of thioacetamide, a known experimental hepatotoxin, alters the content of dolichol, dolichol isoprene units and retinol in isolated rat parenchymal and non-parenchymal liver cells at different times and when the animals are supplemented with Vitamin A. Thioacetamide (300 mg/kg i.p.) was administered in a single injection to rats, sacrificed at intervals of 0.5, 1, 2, 3, 4, 15 and 30 days. Rats supplemented, following thioacetamide, with Vitamin A, 3 days before sacrifice showed increased mortality and cellular necrosis on the third and fourth days. Parameters indicating tissue necrosis returned to normal values in surviving animals. Dolichol and retinol content showed a variable, reversible decrease, with normal levels being restored in 15-30 days. After Vitamin A, dolichol content only in hepatic stellate cells (HSC) was lower then the controls 3 and 4 days after thioacetamide treatment, in parallel with the decrease of retinol storage. The percentage of dolichol-18 is not modified by thioacetamide alone. When supplemented with Vitamin A the percentage of dolichol-18 always decreased after thioacetamide, showing that damage was still present. Mechanisms that might be operative in liver cells are briefly discussed. This approach would provide an indication to investigate how the length of the dolichol chain is determined.     

Association of thioacetamide and ethanol treatment: dolichol and retinol in isolated rat liver cells

Our aim was to study the distribution of dolichol, dolichol isoprenoids, and retinol in hepatocytes, Kupffer, sinusoidal endothelial and two subfractions of hepatic stellate cells, --Ito-1 and Ito-2--, after chronic treatment of rats for 2 and 4 months with a low dosage of thioacetamide associated with ethanol. Each type of cell responded differently to the two hepatotoxins. Overall, ethanol rarely affected the action of thioacetamide. Some new information emerges with regard to these hepatotoxins in comparison with the effects exerted by each of the drugs separately: treatment with thioacetamide plus ethanol determined an early decrease in dolichol in Kupffer cells (about 13% and 50% after 2 and 4 months, respectively). Moreover, after liver damage, a load of vitamin A evidenced altered percentages of the form of dolichol with eighteen isoprene units; these percentages were modified by all treatments in all cell types. The results confirm that dolichol is the preferred target of oxidative stress and suggest a relationship between dolichol and retinol metabolisms, and a possible new role of dolichol precursors, of prenyltransferases and of retinol metabolites in liver pathology.     

丹参素保护肝损伤作用及其作用机制的实验研究

目的探讨丹参素(DSS)保护肝损伤的作用及其可能机制。方法用硫代乙酰胺(TAA)构建急性重型肝损伤大鼠模型。24只雄性Wistar大鼠分为3组:正常对照组(N组),TAA组,TAA+DSS组。检测实验各组血浆内毒素、丙氨酸转氨酶(ALT)、乳酸脱氢酶(LDH)水平的变化判定肝功能情况;检测肝组织匀浆血栓素B2(TXB2)、6-酮-前列环素1α(6-keto-PGF1α)的含量判定肝脏微循环变化;HE染色显示肝组织形态学改变,Weigert染色显示肝脏血管内微血栓。结果TAA+DSS组与TAA组相比,ALT、LDH、内毒素水平及TXB2含量均明显减少,6-keto-PGF1α含量明显升高(P<0.05或P<0.01);HE染色显示TAA组可见肝细胞点片状坏死、大量的炎性细胞浸润;TAA+DSS组上述改变均明显减轻;Weigert染色显示TAA组微血栓计数明显增加,TAA+DSS组较前明显减少(P<0.01)。结论丹参素通过降低肠源性内毒素水平,改善肝脏微循环障碍,从而减轻急性重型肝损伤。     

A simple and robust quantitative analysis of retinol and retinyl palmitate using a liquid chromatographic isocratic method

Vitamin A is a vital nutritional substances that regulates biological activities including development, but is also associated with disease onset. The extent of vitamin A intake influences the retinoid content in the liver, the most important organ for the storage of vitamin A. Measurement of endogenous retinoid in biological samples is important to understand retinoid homeostasis. Here we present a reliable, highly sensitive, and robust method for the quantification of retinol and retinyl palmitate using a reverse-phase HPLC/UV isocratic method. We determined the impact of chronic dietary vitamin A on retinoid levels in livers of mice fed an AIN-93G semi-purified diet (4 IU/g) compared with an excess vitamin A diet (1000 IU/g) over a period from birth to 10 weeks of age. Coefficients of variation for intra-assays for both retinoids were less than 5%, suggesting a higher reproducibility than any other HPLC/UV gradient method. Limits of detection and quantification for retinol were 0.08 pmol, and 0.27 pmol, respectively, which are remarkably higher than previous results. Supplementation with higher doses of vitamin A over the study period significantly increased liver retinol and retinyl palmitate concentrations in adult mice. The assays described here provide a sensitive and rigorous quantification of endogenous retinol and retinyl palmitate, which can be used to help determine retinoid homeostasis in disease states, such as toxic hepatitis and liver cancer.     

Excessive dietary selenium decreases the vitamin A storage and the enzymatic antioxidant defence in the liver of rats

This study investigated the influence of selenium intake, over 8 weeks, on vitamin A level and on enzymatic antioxidant defence in the liver of young rats. Deficient animals were fed a well-balanced diet but without selenite addition; the Se content of this diet which originated from natural Se content of ingredients was 0.05 mg/kg. Controls were fed the same diet with 0.40 mg/kg added Se. The two other groups received high levels of Se, 2.05 or 4.05 mg/kg. Excessive Se intake decreased the concentrations of retinol and retinyl palmitate in the liver. The linear regression analysis indicated a significant (P < 0.001) dose-dependent vitamin A decline. As expected, Se deficit lowered glutathione peroxidase activity. The highest Se excess decreased the enzymatic antioxidation: Zn,Cu Superoxide dismutase, catalase, glutathione peroxidase activities. Data showed that high dietary Se can sometimes enhance carcinogenesis and our results suggest that it is best to be cautious in administrating Se to humans with the aim of preventing diseases.     

Effect of prototypic polychlorinated biphenyls on hepatic and renal vitamin contents and on drug-metabolizing enzymes in rats fed diets containing low or high levels of retinyl palmitate.

Two groups of weanling male Sprague-Dawley rats fed a diet supplemented with either 0.6 or 6 retinol equivalents/g diet were each separated into three further groups receiving 300 mumol 2,2',4,4',5,5'-hexachlorobiphenyl/kg body weight, 300 mumol 3,3',4,4'-tetrachlorobiphenyl kg/body weight or vehicle only (corn oil). Only the coplanar (3,4)2Cl congener caused a slight reduction in food intake, thymic atrophy and led to a significant decrease in the liver vitamin A storage. The vitamin A lost by the liver was approximately the same in both dietary groups; however an increased renal accumulation of vitamin A was observed in the high vitamin A group. Serum retinol was reduced by (3,4)2Cl treatment but remained unchanged by (2,4,5)2Cl exposure. Total amounts of ascorbic acid and its oxidation products were increased in the liver and in the kidney by both xenobiotics while niacin and thiamine concentrations were lowered by (3,4)2Cl only. Microsomes from vitamin A-deficient rats exhibited a marked decrease in the anisotropy parameter. After (2,4,5)2Cl exposure, an increase in membrane fluidity was observed linked to a decrease in cholesterol/phospholipid (C/P) ratio. Treatment with (3,4)2Cl caused a significant decrease in the index of fluorescence polarization only in the low vitamin A group even if the C/P ratio was enhanced in both dietary groups. This study shows that the polychlorinated biphenyl with the 3-methylcholanthrene-type pattern of induction of cytochrome P-450 has more profound effects on B group vitamins and particularly vitamin A homeostasis than does the phenobarbital-type inducer. Moreover, this situation, which has been found to be similar to that in vitamin A deficiency, is not ameliorated by a high dietary vitamin A intake.     

Evaluation of cultured, precision-cut rat liver slices as a model to study drug-induced liver apoptosis

The precision-cut liver slice culture model has been used widely to investigate drug metabolism and drug-induced necrosis. However, apoptosis, a key mediator of liver toxicity remains to be studied in this model. We evaluated apoptosis induced by thioacetamide (TAA) in rat liver slices, and in livers taken from TAA-treated rats as a control. Rat liver slices were treated with 50, 75 and 100 mM of TAA for 15 h. Histopathological examination of the liver slices revealed specific centrilobular localization of apoptotic hepatocytes at 75 mM but randomly distributed at 100 mM. Apoptosis in centrilobular hepatocytes was confirmed by appearance of cleavage products of caspase-3 and DNA fragmentation studied by TUNEL method. A concentration-dependent release of cytochrome c was observed in the slices, suggesting a role for mitochondria in the apoptosis triggered by TAA. The in vitro results were compared to the data obtained in male Sprague-Dawley rats given a single ip injection of 40 mg/kg TAA and sacrificed 1, 2, 3 and 6 h after dosing. Histopathological analyses showed specific centrilobular localization of apoptosis after 6 h treatment. Caspase-3 activation, DNA fragmentation and cytochrome c release were also observed in the liver of rats treated with TAA. Overall these data indicated that precision-cut liver slices provide a valuable in vitro system to study drug-induced liver apoptosis.     

Influence of chronic ethanol consumption on toxic effects of 1,2-dichloroethane: glycolipoprotein retention and impairment of dolichol concentration in rat liver microsomes and Golgi apparatus

Our previous investigations demonstrated that 1,2-dichloroethane (DCE) and chronic ethanol treatment separately are able to impair glycoprotein metabolism and secretion, and reduce dolichol concentration in liver membranes. The purpose of this study was to investigate whether chronic ethanol consumption can induce potentiation of rat liver damage due to DCE haloalkane used in several chemical processes and in agriculture. Rats were given 36% of their total energy as ethanol in the Lieber-DeCarli liquid diet for 8 weeks (CH group). The pair-fed control group received an isocaloric amount of dextrine-maltose (PF group). "In vitro" experiments: the DCE (6.5 mM) treatment of isolated hepatocytes from CH rats enhanced glycoprotein retention and further reduced glycoprotein secretion and 14C-glucosamine incorporation compared to the hepatocytes from CH or from PF and DCE treated rats. "In vivo" experiments: a marked decrease of dolichol concentration in microsomes (in which dolichyl phosphate is rate-limiting for the initial glycosylation of protein) and in Golgi membranes (in which total dolichol is very important for membrane permeability, fluidity and vesicle fusion) was observed in CH rats acutely treated with 628 mg/kg bw of DCE (CH+DCE) compared with CH or PF+DCE treated rats. These data suggest that chronic ethanol consumption increases DCE liver toxicity by affecting protein glycosylation processes and impairing glycolipoprotein secretion, with a concomitant retention at the level of the Golgi apparatus.     

Cytotoxicity of halogenated alkanes in primary cultures of rat hepatocytes from normal, partial hepatectomized, and preneoplastic/neoplastic liver

Six halogenated hydrocarbons, chloroform, 1,2-dibromoethane (1,2-DBE), 1,1-dichloroethane (1,1-DCE), 1,2-dichloroethane (1,2-DCE), 1,1,1-trichloroethane (1,1,1-TCE), and 1,1,2-trichloroethane (1,1,2-TCE), were evaluated for their cytotoxicity in primary cultures of rat hepatocytes isolated from normal, partially hepatectomized, and preneoplastic/neoplastic rat livers. Preneoplastic/neoplastic lesions of phenotypically altered foci and hepatocyte nodules were induced by either (1) initiation by diethylnitrosamine (DENA) followed by 2 weeks of 0.02% 2-acetylaminofluorene (2-AAF) in the diet and a single gavage dose of carbon tetrachloride 1 week after the start of the 2-AAF diet or (2) initiation by DENA followed by promotion with 500 ppm sodium phenobarbital in the drinking water for 24 weeks. The hepatocytes containing preneoplastic/neoplastic cells isolated from animals treated with either protocol, compared to hepatocytes isolated from normal liver, were resistant to the cytotoxicity of aflatoxin B1 (AFB1). None of the six halogenated alkanes exhibited any difference in their cytotoxicity toward hepatocytes isolated from normal liver or from liver containing preneoplastic/neoplastic lesions induced by either procedure. Hepatocytes isolated from partially hepatectomized animals were resistant to the cytotoxicity of AFB1 and chloroform but not to the cytotoxicity of 1,2-DBE or 1,2-DCE. The ranking of relative cytotoxicity in hepatocytes from untreated rats was 1,2-DBE much greater than 1,2-DCE greater than 1,1,2-TCE greater than 1,1,1-TCE greater than chloroform greater than 1,1-DCE. Treatment with SKF-525A protected the hepatocytes from the cytotoxicity of AFB1 while increasing the cytotoxicity of all six halogenated alkanes. Treatment with diethyl maleate increased the cytotoxicity of AFB1 and all six halogenated alkanes. These observations suggest that preneoplastic/neoplastic rat hepatocytes are not resistant to the cytotoxicity of the six halogenated alkanes because their toxicity might be mediated by a cytochrome P-450 species which is not inhibited by SKF-525A and is not decreased in preneoplastic/neoplastic lesions.     

Dietary pyrrolizidine (Senecio) alkaloids and tissue distribution of copper and vitamin A in broiler chickens.

The effect of feeding a diet containing 5% tansy ragwort (TR) (Senecio jacobaea), a poisonous plant containing pyrrolizidine alkaloids (PA), on the blood and liver levels of copper, zinc, iron and vitamin A in broiler chicks was examined. Serum and liver copper and liver iron concentrations were increased in chicks fed a diet with 5% TR, while serum and liver zinc and vitamin A decreased. When PA were removed from the diet, partial restoration of normal serum vitamin A level occurred, indicating that the ability to mobilize liver vitamin A is not irreversibly inhibited by PA. The decline in serum vitamin A occurred by 8 days of TR feeding with a concurrent decline in growth rate. When chicks were fed a diet high in vitamin A (25,000 IU/kg), followed by a basal diet containing TR, serum vitamin A levels were significantly (P < 0.01) decreased, while liver vitamin A level increased. This indicates that mobilization of previously stored vitamin A from the liver is impaired by PA. Prior feeding of a high vitamin A level resulted in protective effects against PA toxicity, as assessed by histopathology. This study shows that a dietary source of PA modifies metabolism and tissue distribution of minerals and vitamin A.     

Polybrominated diphenyl ether (PBDE)-induced alterations in vitamin A and thyroid hormone concentrations in the rat during lactation and early postnatal development

In experimental animals fed standard laboratory diets, penta-BDE mixtures can decrease circulating thyroid hormone and liver vitamin A concentrations. A substantial number of pregnant women and their children have marginal vitamin A status, potentially increasing their risk of adverse effects to penta-BDE exposure. The current study investigated the effects of maternal gestational and lactational penta-BDE exposure on thyroid hormone and vitamin A homeostasis in rats of sufficient vitamin A (VAS) or marginal vitamin A (VAM) status and their offspring. Dams were administered daily oral doses of 18 mg/kg DE-71 (a penta-BDE mixture) or a corn oil vehicle from gestation day 6 through lactation day (LD) 18. Thyroid hormone and vitamin A homeostasis were assessed in plasma and tissues of LD 19 dams and postnatal day (PND) 12, 18, and 31 pups. DE-71 exposure induced hepatomegaly in VAS and VAM pups at all timepoints and increased testes weights at PND 31. While liver vitamin A concentrations were low in DE-71 treated dams and pups, plasma retinol concentrations and plasma retinol binding protein levels were only low in VAM animals exposed to DE-71. DE-71 exposure lowered plasma thyroxine concentrations in VAS and VAM dams and pups. Plasma thyroid stimulating hormone concentrations were high in VAM dams exposed to DE-71, suggesting that marginal vitamin A status enhances the susceptibility to thyroid hormone axis disruption by DE-71. These results support the concept that marginal vitamin A status in pregnant women may increase the risk for PBDE-induced disruptions in vitamin A and thyroid hormone homeostasis.     

Characteristics of nitrogen metabolism in rats with thioacetamide-induced liver cirrhosis.

Female Sprague-Dawley rats were given 0.03% thioacetamide (TAA) in their drinking water daily for 4 or 12 weeks, and were then given normal water for 4 weeks after the end of a 12-week TAA treatment to investigate amino acid metabolism. In the malnourished precirrhotic stage (stage 1) and the malnourished cirrhotic stage (stage 2), the aromatic amino acids (AAA), Glu, Asp, Orn, Arg and Cit increased, and the branched-chain amino acids (BCAA) decreased slightly. Because these changes normalized in the well-nourished cirrhotic stage (stage 3), they might have resulted from impairment of hepatocytes and malnutrition. The net uptake of BCAA into the liver increased in stage 2, but the AAA uptake did not exceed that in normal controls. Portal venous plasma AAA increased to the same level as arterial plasma AAA. These results suggest that the decrease in BCAA was partially due to liver uptake and that the increase in AAA was induced by reduction of liver uptake and overproduction in extrahepatic tissues. The liver contents of BCAA and AAA were unchanged in all stages, so were fully utilized in the impaired liver. The increases in Glu, Asp, Orn and Cit might have resulted from overproduction in the liver, because these contents of the liver increased in stage 2. In conclusion, the changes in amino acid metabolism in rats with cirrhosis induced by TAA closely resemble those seen in human liver cirrhosis.     

Effects of vitamin E on the killing of cultured hepatocytes by tert-butyl hydroperoxide.

The disposition of vitamin E was examined in cultured rat hepatocytes intoxicated with tert-butyl hydroperoxide (TBHP). Culturing of the cells overnight (18-20 hr) with approximately 60 nM alpha-tocopherol (alpha-T) equivalents [Williams' E medium, 18 nM tocopherol phosphate (alpha-TP), 9% fetal calf serum, 43 nM alpha-T] resulted in a content of alpha-T that was 16% of the concentration of vitamin E measured in freshly isolated hepatocytes. Supplementation of the medium with 1 microM alpha-TP maintained the alpha-T concentration of the cultured cells at the level of freshly isolated hepatocytes. Supplemented hepatocytes exposed to TBHP showed decreased lipid peroxidation and delayed cell killing, compared with hepatocytes not cultured overnight with alpha-TP. Killing of the supplemented cells by TBHP was accompanied by a loss of alpha-T. Pretreatment of supplemented hepatocytes with the iron chelator deferoxamine prevented much of the loss of alpha-T. At the same time, deferoxamine inhibited both the lipid peroxidation and cell killing. The antioxidant N,N'-diphenyl-1,4-phenylenediamine reduced the loss of alpha-T and significantly decreased lipid peroxidation. In the presence of N,N'-diphenyl-1,4-phenylenediamine, cell killing was delayed by 15 min and reduced in extent. Overnight supplementation of hepatocytes with nonesterified alpha-T, or vitamin E esters other than alpha-TP, similarly rendered the cells less sensitive to TBHP. The nonesterified alpha-T produced a higher cell-associated vitamin E concentration than did the esters; however, nonesterified alpha-T did not result in greater protection against TBHP. These data indicate that the mechanisms of the cell killing by TBHP are the same in cultured hepatocytes that contain low or physiological concentrations of vitamin E.     

Taurine has a protective effect against thioacetamide-induced liver cirrhosis by decreasing oxidative stress

Thioacetamide (TAA) administration (0.3 g/l of tap water for a period of 3 months) to rats resulted in hepatic cirrhosis as assessed by biochemical and histopathological findings. This treatment caused an increase in the levels of malondialdehyde (MDA) and diene conjugates (DCs) and a decrease in the levels of glutathione (GSH), vitamin E, vitamin C and the activities of glutathione peroxidase (GSH-Px) in the liver of rats. Superoxide dismutase (SOD) activities were unchanged. Taurine (2% w/w, added to the chow diet) was administered together with TAA (0.3 g/l of drinking water) for 3 months. Taurine was found to decrease TAA-induced hepatic lipid peroxidation and to increase TAA-depleted vitamin E levels and GSH-Px activities. Histopathological findings also suggested that taurine has an inhibitive effect on TAA-induced hepatic cirrhosis. These results indicate that taurine treatment has a protective effect against TAA-induced liver cirrhosis by decreasing oxidative stress.     

Vitamin A deficiency injures liver parenchyma and alters the expression of hepatic extracellular matrix

Vitamin A is an essential lipid-soluble nutrient that is crucial for morphogenesis and adult tissue maintenance. The retinoid homeostasis in the liver depends on a regular supply of vitamin A from an adequate dietary intake to preserve the normal organ structure and functions. This study focuses on the effect of vitamin A deficiency on the morphology and extracellular proteins expression of the liver in adult Wistar rats. Animals were fed with a normal (control group) or deficient vitamin A diet for 3 months. At the end of the experimental period, histological examination of the livers under light and electron microscopy revealed that vitamin A deficiency produced a loss of hepatocyte cord disposition with an irregular parenchymal organization. Abundant fat droplets were present in the cytoplasm of the hepatocytes. Elongated myofibroblastic-like cells with an irregular cytoplasmic process and without lipid droplets could be seen at the perisinusoidal space, where an elevated intensity of alpha smooth muscle actin (alpha-SMA) was observed. These results suggest that an activation of hepatic stellate cells (HSCs) occurred. Moreover, immunochemical methods revealed that vitamin A deficiency led to an increased expression of hepatic fibronectin, laminin and collagen type IV. We propose that vitamin A deprivation caused liver injury and that HSCs underwent a process of activation in which they produced alpha-SMA and synthesized extracellular components. These changes may be a factor predisposing to liver fibrosis. In consequence, vitamin A deprivation could affect human and animal health.     

Protective effects of soyasapogenol A on liver injury mediated by immune response in a concanavalin A-induced hepatitis model

The present study was carried out to analyze the effects of soyasapogenol A on the liver injury mediated by the immune response in concanavalin A-induced hepatitis in mice. Soyasapogenol A reduced the number of infiltrating inflammatory cells in the liver and significantly lowered the elevated level of plasma tumor necrosis factor-alpha (TNF-alpha) 2 h after concanavalin A treatment, and then markedly reduced the elevated plasma alanine aminotransferase activity and decreased the number of apoptotic bodies in the liver parenchymal cells but not in the sinusoidal cells at 24 h. Since the effect of soyasapogenol A on the elevated plasma TNF-alpha level was not appreciable compared to the preventive effect of soyasapogenol A on the elevated plasma alanine aminotransferase level, these results suggest that soyasapogenol A directly prevents apoptosis of hepatocytes, and secondly, inhibits the elevation of plasma TNF-alpha, which consequently resulted in the prevention of liver damage in the concanavalin A-induced hepatitis model.     

Effects of liver-supplemented food on the development of embryos in mice

We examined whether dietary intake of cattle liver-supplemented food induces reproductive effects in dams and developmental effects in embryos in the mouse model. Seven groups of 19 to 35 female mice each were given either powdered food or the food supplemented with crude liver homogenate, its lipophilic component, the defatted liver homogenate or vitamin A (retinol palmitate) during a 25-d period spanning from a week prior to mating to gestation day 18 (GD18). Fetal mortality and incidence of external abnormalities of the fetuses whose dams were given the diet supplemented with the crude liver homogenate increased dose-dependently with an increase in the supplemented amount of the crude liver homogenate. On the other hand, the defatted liver homogenate did not induce any reproductive or teratological effect. The vitamin A (VA)-supplemented food (950 IU/5 g food as VA) induced approximately the same levels of the incidence of total external abnormalities appearing at the same affected regions or organs as the foods supplemented with the 700 mg crude liver homogenate (1029 IU/5 g food as VA) and its lipophilic component (950 IU/5 g food as VA). The content of VA (as 1029 IU/5 g food) in the crude liver homogenate was found to be approximately equal to that in the lipophilic component (950 IU/5 g food as VA). Therefore, it was concluded that VA plays an important role in induction of the lethal and teratogenic effects in the fetuses whose dams were given the powdered foods supplemented with the crude liver homogenate and its lipophilic component.     

The effects of vitamin A supplementation to rats during gestation and lactation upon redox parameters: Increased oxidative stress and redox modulation in mothers and their offspring

Vitamin A is an essential nutrient required in adequate amounts for reproduction and development. Subtle variations in the status of maternal nutrition may affect physiological and metabolic parameters in the fetus. Evidence suggests a key role for oxidative stress in these events. Literature is controversial about the effects of vitamin A supplementation. Here, we studied the effects of vitamin A supplementation on female Wistar rats during gestation and lactation on oxidative stress parameters of maternal and offspring tissues. Rats received daily doses of vitamin A at 2500, 12,500 and 25,000 IU/kg. We observed an increase of oxidative damage markers in the reproductive tissues and plasma of dams. The activity of glutathione-S-transferase was modulated by vitamin A supplementation. It was found to be increased in the liver of dams and decreased in the kidneys of mothers and offspring. In pups, supplementation decreased the total antioxidant potential of the liver along with decreased superoxide dismutase/catalase activity ratio in the kidney. The levels of lipoperoxidation were increased in male offspring, but decreased in female pups. Collectively, the results suggest that excessive vitamin A intake during gestation and lactation might be toxic for mothers with adverse effects for the developing offspring.