Amiodarone inhibits T4 to T3 conversion and alpha-glycerophosphate dehydrogenase and malic enzyme levels in rat liver

Amiodarone has been found to decrease serum T3 by blocking peripheral T4 5'-deiodinase. This reduction in T3 levels may contribute to the effectiveness of this drug in moderating cardiac arrhythmias. To further characterize the effect of amiodarone on thyroid hormone metabolism and biological action, male Sprague-Dawley rats were thyroidectomized and then fed 500 ug T4 or 50 ug T3 and 500 mg amiodarone/kg of powdered diet for 6 to 8 weeks. Hepatic and cardiac levels of T4, T3, alpha-glycerophosphate dehydrogenase (GPD) and malic enzyme (ME) were used as indicators of thyroid hormone availability and action at the cellular level. Conversion of T4 to T3 was measured in liver homogenates. Serum TSH, T4 and T3 were also measured. Amiodarone reduced hepatic GPD and ME in thyroidectomized rats receiving dietary T4. Liver T4 levels were significantly increased by amiodarone and the T3/T4 ratio was reduced (P less than .05). Amiodarone inhibited hepatic T4 to T3 conversion and decreased serum T3. The decreased T3 action at the cellular level, indicated by the reduction in hepatic GPD and ME, is not due to pharmacologic effects of amiodarone since these enzyme levels were not affected by amiodarone in thyroidectomized rats replaced with T3.     

Short-term effect of dietary cholesterol on tissue n-6 fatty acids in fat-deficient rats

Weanling female rats raised on a fat-free diet for 8 weeks were then given the same diet supplemented with 0, 0.25, 0.5, or 1% by weight of cholesterol in addition to 10% of safflower oil for 3 days. Fatty acid compositions of cholesteryl esters (CE), triglycerides (TG), and phospholipids (PL) in liver and plasma were examined. Cholesterol feeding increased plasma and liver cholesterol contents and also affected the patterns of n-6 polyunsaturated fatty acids. There were no consistent changes in either plasma and liver TG which contained little 20:3n-6 and 20:4n-6. The levels of 20:3n-6 increased in plasma and liver PL, while proportions of 20:4n-6 decreased in liver and plasma CE. However, the absolute amount of 20:4n-6 in cholesteryl esters increased because of a threefold rise in cholesteryl ester levels. The changes might be attributable to an increased utilization of 20:4n-6 for cholesterol transport and/or an inhibition of delta 5-desaturation of n-6 fatty acids by cholesterol feeding.     

Changes in the antioxidant defence and in selenium concentration in tissues of vanadium exposed rats

Vanadium is an element whose role as a micronutrient for humans is not yet completely established, but which has been shown to possess hypoglycaemic properties in diabetes. In an earlier study, we showed that in STZ-diabetic rats, exposure to 1 mg V per day has no effect on glycaemia or on antioxidant status. When the exposure was raised to 3 mg V per day there was a hypoglycaemic effect, together with reduced Se in the tissues, which reduced antioxidant defences. The aim of the present study was to examine whether exposure to 1 mg V per day modifies Se nutritional status and/or antioxidant defences in healthy rats. Two groups of rats were examined: control and vanadium-treated. Vanadium, as bis(maltolato)oxovanadium(iv), was supplied in the drinking water. The experiment had a duration of five weeks. Selenium was measured in excreta, serum, skeletal muscle, kidneys, liver, heart, femur and adipose tissue. Number of red (RBC) and white (WBC) blood cells and haemoglobin (Hb) were determined in samples of whole blood. Glutathione peroxidase (GPx), glutathione transferase (GST), catalase (CAT) and NAD(P)H:quinine-oxidoreductase1 (NQO1) activity, and malondialdehyde (MDA) in the liver were evaluated. Treatment significantly reduced food intake, produced an anaemic state, and decreased Se absorption and Se content in serum, kidneys and the liver. GPx, GST and NQO1 activity were decreased in the liver, while MDA levels rose. We conclude that healthy rats are more sensitive than diabetic ones to the effects of V. This should be taken into account for populations that are particularly exposed to V for environmental reasons, and/or that consume V as a nutritional supplement.     

Effect of lipid transfer protein on plasma lipids, apolipoproteins and metabolism of high-density lipoprotein cholesteryl ester in the rat

The role of human plasma lipid transfer protein (LTP) in lipoprotein metabolism was studied in the rat, a species without endogenous cholesteryl ester and triacylglycerol transfer activity. Partially purified human LTP was injected intravenously into rats. The plasma activity was between 1.5- and 4-fold that of human plasma during the experiments. 6 h after the injection of LTP, a significant increase in serum apoB, and no significant changes in serum total cholesterol, free cholesterol, triacylglycerols, apoA-I, apoE, or apoA-IV were noted. Cholesterol was increased in very-low density and low-density lipoproteins (VLDL and LDL) and decreased in large-sized apoE-rich HDL. ApoA-I-containing particles with a size smaller than in normal rats were present in serum of LTP-treated rats. The mean diameter of HDL particles decreased and apoE, normally present on large-sized HDL, was present on smaller sized particles. The metabolic fate of cholesteryl ester, originally associated with HDL, was studied by injection of [3H]cholesteryl linoleyl ether-labelled apoA-I-rich HDL in the absence and in the presence of LTP. The disappearance of [3H]cholesteryl linoleyl ether, injected as part of apoA-I-rich HDL, from serum was increased in the LTP-treated rats; the t1/2 changed from 3.9 to 2.2 h, resulting in an increased accumulation of [3H]cholesteryl linoleyl ether in the liver. This can be explained by the redistribution of HDL [3H]cholesteryl linoleyl ether to VLDL and LDL in the presence of LTP, leading to the combined contribution of VLDL, LDL and HDL to the hepatic uptake. The present findings show profound effects of LTP on the chemical composition of HDL subspecies, the size of HDL and on the plasma turnover and hepatic uptake of cholesteryl esters originally present in apo A-I-rich HDL.     

Protective effect of ursolic acid on ethanol-mediated experimental liver damage in rats

Ursolic acid is a triterpenoid that exists in nature and is the major component of some traditional medicinal herbs. In this study, ursolic acid has been evaluated for its hepatoprotective effect against chronic ethanol-mediated toxicity in rats. Ethanol administration (7.9 g/kg/day) for 60 days resulted in increased oxidative stress, decreased antioxidant defense and liver injury. It also negatively affected the serum total protein, albumin and A/G ratio. Subsequent to the experimental induction of toxicity (i.e. after the initial period of 30 days) ursolic acid treatment performed by co-administering ursolic acid (10, 20 and 40 mg/kg body weight) for 30 days along with the daily dose of ethanol. While this treatment causing a significant improvement in body weight, food intake and serum protein levels, it decreases serum aminotransferase activities (aspartate aminotransferase and alanine aminotransferase) and total bilirubin levels. Ursolic acid improved the antioxidant status of alcoholic rats, which is evaluated by the decreased levels of lipid peroxidation markers in plasma (thiobarbituric acid reactive substances and lipid hydroperoxides) and increased levels of circulatory antioxidants such as reduced glutathione, ascorbic acid and alpha-tocopherol. Histopathological observations were also in correlation with the biochemical parameters. The activity of ursolic acid (20 mg/kg) compares well with silymarin, a known hepatoprotective drug, and seems to be better in certain parameters. The protective effect of ursolic acid is probably related to its antioxidant activities.     

Metabolism of HDL-cholesteryl ester in the rat, studied with a nonhydrolyzable analog, cholesteryl linoleyl ether

Intralipid was sonicated with [3H]cholesteryl linoleyl ether (a nonhydrolyzable analog of cholesteryl linoleate) and incubated with rat HDL and d greater than 1.21 fraction of rabbit serum at a ratio of 0.012 mg triacylglycerol to 1 mg HDL protein. 25% of [3H]cholesteryl linoleyl ether was transferred to HDL. The labeled HDL was injected into donor rats and was screened for 4 h. [125I]HDL was subjected to the same protocol as the 3H-labeled HDL, including screening. The screened, labeled sera were injected into acceptor rats and the disappearance of radioactivity from the circulation was compared. The t1/2 in the circulation of [125I]HDL was about 10.5 h, while that of [3H]cholesteryl linoleyl ether-HDL was about 8 h. The liver and carcass were the major sites of uptake of [3H]cholesteryl linoleyl ether-HDL and accounted for 29-41% (liver) and 30% (carcass) of the injected label. Maximal recovery of [3H]cholesteryl linoleyl ether in the liver was seen 48 h after injection, and thereafter there was a progressive decline of radioactivity, which reached 7.8% after 28 days. The maximal recovery of [125I]HDL in the liver was about 9%. Pretreatment of the acceptor rats with estradiol for 5 days resulted in a 20% increase in the hepatic uptake of [3H]cholesteryl linoleyl ether-HDL and a 5-fold increase in adrenal uptake. The present findings indicate that in the rat the liver is the major site of uptake of HDL cholesteryl ester and that part of the HDL cholesteryl ester may be cleared from the circulation separately from the protein moiety. On the basis of our previous findings (Stein, Y., Kleinman Y, Halperin, G., and Stein, O. (1983) Biochim. Biophys. Acta 750, 300-305) the loss of the [3H]cholesteryl linoleyl ether from the liver after 14-28 days was interpreted to indicate that the labeled [3H]cholesteryl linoleyl ether had been taken up by hepatocytes.     

Hepatic processing and biliary secretion of the cholesteryl esters from beta very-low-density lipoproteins in the rat

beta-Migrating very-low-density lipoproteins (beta-VLDL) are cholesteryl-ester-enriched lipoproteins which accumulate in the serum of cholesterol-fed animals or patients with type III hyperlipoproteinemia. In the rat, beta-VLDL are rapidly cleared by the liver and parenchymal liver cells form the major site for uptake. In this investigation, beta-VLDL were labeled with [3H]cholesteryl esters and the hepatic intracellular transport of these esters was followed. 2 min after injection, the major part of the [3H]cholesteryl esters is already associated with the liver and a significant proportion is recovered in endosomes. Up to 25 min after injection, an increase in radioactivity in the lysosomal compartment is noticed. This radioactivity initially represents cholesteryl esters, while from 25 min onward, radioactivity is mainly present in unesterified cholesterol. Between 45 min and 90 min after beta-VLDL injection, specific transfer of unesterified [3H]cholesterol to the endoplasmic reticulum is observed, while by 3 h the majority is located in this fraction. The appearance of radioactivity in the bile was rather slow as compared to the rapid initial uptake and processing, and up to 5 h after injection only 10% of the injected dose had reached the bile (mainly as bile acids). 72 h after injection, the amount of the injected radioactivity recovered in the bile had increased to 50%. Chloroquine treatment of the rats inhibited the hydrolysis of the cholesteryl esters and the appearance of radioactivity in the bile was retarded. It is concluded that beta-VLDL are rapidly processed by parenchymal liver cells and that the cholesteryl esters from beta-VLDL are hydrolyzed in the lysosomal compartment. Unesterified cholesterol remains associated with the endoplasmic reticulum for a prolonged time, although ultimately the majority will be secreted into the bile as bile acids. The effective operation of this pathway will prevent extrahepatic accumulation of cholesteryl esters from beta-VLDL, while the prolonged residence time of unesterified cholesterol in the endoplasmic reticulum might be important for regulation of low-density lipoprotein (LDL) receptors in liver and thus for LDL levels in the blood.     

锌对缺血／再灌注肝脏自由基含量和细胞凋亡的影响

目的：观察补锌对缺血再灌注（HIR）大鼠肝脏自由基含量及细胞凋亡的影响。探讨补锌保护肝损伤的机制。方法：用荧光分光光度法测定血清MDA含量;用电子自旋共振法测定肝脏自由基浓度;用流式细胞术检测肝细胞凋亡。结果：HIR组大鼠血清MDA水平和肝自由基产生均增加,补锌后降低;肝脏缺血再灌注后肝细胞凋亡率达到57.72%,补锌后降低40.85%。结论：减少自由基产生和抑制细胞凋亡是锌保护肝缺血再灌注损伤的重要机制。     

Effect of carnosine supplementation on apoptosis and irisin,total oxidant and antioxidants levels in the serum,liver and lung tissues in rats exposed to formaldehyde inhalation

The main objective of the study has been to show whether carnosine has positive effects on liver and lung tissues of rats exposed to a range of formaldehyde concentrations, and to explore how irisin expression and antioxidant capacity are altered in these tissues by carnosine supplementation. Sprague-Dawley type male rats were divided into 8 groups with 6 animals in each: (I) Control; no chemical supplementation); (II) sham (100 mg/kg/day carnosine); (III) low dose formaldehyde (LDFA) for 5 days/week; (IV) LDFA for 5 days/week and carnosine); (V) moderate dose formaldehyde (MDFA) for 5 days/week); (VI) MDFA for 5 days/week and carnosine; (VII) high dose formaldehyde (HDFA) for 5 days/week; (VIII) and HDFA for 5 days/week and carnosine. Sham and control groups were exposed to normal air. Irisin levels of the serum, liver and lung tissue supernatants were analyzed by ELISA, while the REL method was used to determine total oxidant/antioxidant capacity. Irisin production by the tissues was detected immunohistochemically. Increasing doses of FA decreased serum/tissue irisin and total antioxidant levels relative to the controls, as also to increases in TUNEL expressions, total oxidant level, oxidant and apoptosis index. Irisin expression was detected in hepatocyte and sinusoidal cells of the liver and parenchymal cells of the lung. In conclusion, while FA exposure reduces irisin and total oxidant in the serum, liver and lung tissues in a dose-dependent manner and increases the total antioxidant capacity, carnosine supplementation reduces the oxidative stress and restores the histopathological and biochemical signs.     

Regulation of the selective uptake of high density lipoprotein-associated cholesteryl esters

We have previously shown in rats that the cholesteryl ester component of high density lipoproteins (HDL) is taken up at a greater fractional rate than is the apolipoprotein A-I component (selective uptake) by liver and steroidogenic tissues. Selective uptake was also exhibited by cultured cells from these organs as well as by a wider range of cells in vitro (e.g., rat and human fibroblasts). We report here regulation of this pathway according to the cholesterol status of cells. Uptake of HDL cholesteryl esters by rat fibroblasts was decreased by prior loading of the cells with cholesterol, even while uptake of HDL-associated apoA-I actually increased. At high levels of cholesterol, the two were taken up about in parallel, i.e., selective uptake was suppressed. A similar regulation of selective uptake in primary rat hepatocytes in culture was not observed. To examine regulation of selective uptake in vivo, hypocholesterolemia was induced in rats using either 4-aminopyrazolo[3,4-d]pyrimidine or 17 alpha-ethinyl estradiol. Rat HDL, doubly labeled in both the apoprotein A-I and cholesteryl ester moieties with intracellularly trapped tracers, were injected into untreated and treated rats. The plasma decay kinetics and the tissue sites of uptake were then determined. Hypocholesterolemia increased the plasma fractional catabolic rates of both tracers. Selective uptake was observed in tissues of treated rats that did not exhibit selective uptake in untreated rats (muscle, adipose tissue, and skin). Similarly, hypocholesterolemia increased the contribution of selective uptake to total HDL cholesteryl ester uptake by adrenal and ovary. In contrast, regulation of selective uptake by liver could not be demonstrated under these conditions. Thus, selective uptake of HDL cholesteryl esters can be regulated in extrahepatic tissues of rats in vivo and in vitro, suggesting a role for selective uptake in the maintenance of cholesterol homeostasis in these tissues.     

Combined treatment of sodium orthovanadate and Momordica charantia fruit extract prevents alterations in lipid profile and lipogenic enzymes in alloxan diabetic rats

Momordica charantia Linn., commonly called bitter gourd, is a medicinal plant used in the Ayurvedic system of medicine for treating various diseases including diabetes mellitus. Sodium orthovanadate (SOV) is also well-known insulin mimetic and an antidiabetic compound. Our laboratory has been using reduced doses of SOV along with administration of herbal extracts to alloxan diabetic rats and has established this combination as a good antihyperglycemic agent. The present study was undertaken to investigate the effects of treatment of Momordica fruit extract (MFE) and sodium orthovanadate, separately and in combination, on serum and tissue lipid profile and on the activities of lipogenic enzymes in alloxan induced diabetic rats. The results show that there was a significant (p < 0.01) increase in serum total lipids, triglycerides and total cholesterol levels after 21 days of alloxan diabetes. In the liver and kidney of diabetic rats the levels of total lipids and triglycerides also increased significantly (p < 0.01) while levels of total cholesterol decreased significantly (p < 0.01 and p < 0.05, respectively). The lipogenic enzymes showed decreased activity in the diabetic liver, while in kidney they showed an increased activity. When compared with the controls these changes were significant. The treatment of alloxan diabetic rats with MFE and SOV prevented these alterations and maintained all parameters near control values. Most effective prevention was however observed in a combined treatment of Momordica with a reduced dose of SOV (0.2%). The results suggest that Momordica fruit extract and SOV exhibit hypolipidemic as well as hypoglycemic effect in diabetic rats and their effect is pronounced when administered in combination. (Mol Cell Biochem 268: 111–120, 2005)     

The effect of melaxen and valdoxan on the activity of the glutathione antioxidant system in rats with experimental hyperthyroidism

The activity of the glutathione system and conjugated diene content (CD) have been investigated in the liver and blood serum of rats with experimental hyperthyroidism treated with melaxen and valdoxan. The study of glutathione reductase (GR), glutathione peroxidase (GP) and glutathione transferase (GST) activities increased under this pathology has shown that administration of these compounds decreased these activities towards control levels. Melaxen and valdoxan administration increased reduced glutathione (GSH) content as compared with untreated hyperthyroid rats. This increase may be associated with its decreased utilization for detoxification of toxic products of free radical oxidation (FRO). Administration of the melatonin correcting drugs also tended to normalize the CD level increased in the liver and blood serum of hyperthyroid rats. Results of this study indicate that melaxen and valdoxan exhibit positive effect on free radical homeostasis. This appears to be accompanied by a decrease in the load of the glutathione antioxidant system in comparison with the examined pathology.     

Effects of high-dose ethinyl estradiol on serum concentrations and hepatic secretion of the very-low-density lipoprotein, triacylglycerol, cholesterol, and apolipoprotein A-I in the rat

Female and male rats were treated with ethinyl estradiol (5.0 mg/kg daily for 5 days). Control animals were pair fed to compensate for the reduction in food intake induced by the estrogen, or were fed ad libitum. Treatment with ethinyl estradiol reduced total cholesterol and apolipoprotein A-I concentrations in the serum of female and male animals. The concentrations of serum and hepatic triacylglycerol were depressed markedly in animals of both sexes in groups treated with ethinyl estradiol, compared to the control group fed ad libitum. Compared to the pair-fed controls, however, ethinyl estradiol had only a very minor further reduction on serum triacylglycerol concentration. In male and female rats, the synthesis and secretion of triacylglycerol by the liver was, in comparison to the pair-fed controls, stimulated by estrogen, whereas the secretion of unesterified cholesterol was unaffected by any of the treatment regimens. The synthesis and secretion of total cholesteryl esters by livers from male and female rats was increased by treatment with ethinyl estradiol. The hepatic synthesis and secretion of VLDL triacylglycerol and cholesteryl ester was stimulated by ethinyl estradiol in male and female rats, and the VLDL particle was enriched with cholesteryl ester. Treatment with the high-dose estrogen increased the secretion of apolipoprotein A-I by livers from female rats. It is suggested that the depression in the serum concentrations of cholesteryl esters and apolipoprotein A-I is the result of increased rates of hepatic and/or peripheral catabolism of these components and that the hepatic production rates were increased or unaffected in animals administered high doses of ethinyl estradiol. Since the secretion of apolipoprotein A-I by livers from male rats was unaffected by treatment with ethinyl estradiol, the response to estrogen may be sex related.     

Influence of gender on tamoxifen-induced biochemical changes in serum of rats

Tamoxifen, the widely prescribed drug in the prevention and therapy of breast cancer, may cause side effects which may be influenced by gender. The present study was undertaken to investigate the impact of gender on tamoxifen-induced toxic and biochemical changes following oral administration of tamoxifen at high dose level of 20 mg/kg once daily for a 2-week period in both male and female rats. The results showed marked increases in serum activities of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) in female rats. In contrast, treatment with tamoxifen in male animals significantly decreased the activity of ALT, with a tendency for a decrease in serum AST levels. In female rats, a significant reduction in the serum activity of acid phosphatase (ACP) was noted, compared with a non-significant decrease in males. Non-significant changes in serum levels of alkaline phosphatase (ALP) were seen in both sexes. Tamoxifen lowered serum contents of total lipid and total cholesterol in both male and female rats. Serum levels of triglycerides were reduced in female rats as compared to a non-significant decrease in male animals. The serum albumin concentration was decreased in both male and female rats, while total protein was decreased only in female animals. Tamoxifen markedly increased serum levels of creatinine in female rats, compared with a non-significant rise in males. Total serum contents of calcium were similarly reduced in both males and females. This is the first study which points to gender-related differences in tamoxifen-induced toxic and metabolic changes in rats. The results indicated that females are more susceptible than males to tamoxifen toxicity, probably due to the ability of tamoxifen to antagonize the action of estrogen in females.     

Steroid balance and tissue cholesterol accumulation in germfree and conventional rats fed diets containing saturated and polyunsaturated fats

Steroid balance studies were conducted on 24 conventional and 12 germfree male rats, 90-120 days old, fed diets containing either 20% safflower or 20% coconut oil. Both germfree and conventional rats fed the safflower oil diets had significantly lower serum cholesterol levels and significantly higher liver cholesterol levels than did the rats fed coconut oil. No significant differences in total fecal neutral sterols, coprostanol, Delta(7)-cholestenol, or total fecal bile acid excretion were seen between dietary groups of rats of either status. There was no evidence of qualitative differences in fecal bile acid excretion as a function of diet. The increased liver cholesterol was in the ester form, with cholesteryl linoleate the largest single component. There was no significant difference in the cholesterol content of the skin, muscle, adipose tissue, or gastrointestinal tract. The significance of a large increase in liver cholesteryl ester, lowered serum cholesterol, and no change in steroid excretion is discussed.     

Transfer of esterified cholesterol from serum lipoproteins to the liver.

The fate of cholesteryl esters of the serum lipoproteins was studied in intact rats and in isolated perfused rat livers. The lipoproteins of fasting rat serum were labeled in vitro with [3H]cholesteryl oleate. Following intravenous injection, it was found that the majority of the radioactive ester was rapidly taken up by the liver where hydrolysis of the ester bond occurred. At 5 min, 58% of the injected material was recovered in the liver, 85% of which was still in the ester form, while at 30 min only 22% of the liver radioactivity was in cholesteryl esters. There was very little difference in the rate at which radioactivity was taken up from the different lipoprotein classes. Similar phenomena were observed in the perfused liver, but it was found that although the radioactive esters were being taken up, there was no change in the concentrations of free or esterified cholesterol in the perfusing medium, indicating that the lipoprotein cholesteryl ester was gaining access to the liver through an exchange of molecules. After uptake, cell fractionation experiments showed that the plasma membranes had the greatest relative amounts of radioactivity, suggesting that this is the site of exchange. Small amounts of radioactivity were recovered in the bile, demonstrating that serum lipoproteins can serve as precursors of at least some of the bile steroids.     

Thyroid status in the obese syndrome of rats

The thyroid function was explored by comparing serum total and free iodothyronine levels in young male genetically obese Zucker rats and in their lean littermates, aged from 6 to 8 weeks old. Total and free thyroxine (T4) and 3,5,3'triiodothyronine (T3) levels were significantly decreased in obese rat serum while total 3,3',5'-triiodothyronine (rT3) remained constant. Radioactive T4 half life is slower in the plasma of obese rats. Peripheral synthesis of T3 from deiodination of T4 is also decreased in obese rat liver homogenate. These modifications produce changes in liver mitochondria oxidative phosphorylation and in marker enzyme activity, which are usually associated with hypothyroidism and hypothalamic disturbances. Genetic obesity probably involves activation of peripheral deiodination of T4 to rT3 which induces biochemical and metabolic changes.     

Decreased activity of folate transporters in lipid rafts resulted in reduced hepatic folate uptake in chronic alcoholism in rats

Folic acid is an essential nutrient that is required for one-carbon biosynthetic processes and for methylation of biomolecules. Deficiency of this micronutrient leads to disturbances in normal physiology of cell. Chronic alcoholism is well known to be associated with folate deficiency, which is due in part to folate malabsorption. The present study deals with the regulatory mechanisms of folate uptake in liver during chronic alcoholism. Male Wistar rats were fed 1 g/kg body weight/day ethanol (20 % solution) orally for 3 months, and the molecular mechanisms of folate uptake were studied in liver. The characterization of the folate transport system in liver basolateral membrane (BLM) suggested it to be a carrier mediated and acidic pH dependent, with the major involvement of proton coupled folate transporter and folate binding protein in the uptake. The folate transporters were found to be associated with lipid raft microdomain of liver BLM. Moreover, ethanol ingestion decreased the folate transport by altering the Vmax of folate transport process and downregulated the expression of folate transporters in lipid rafts. The decreased transporter levels were associated with reduced protein and mRNA levels of these transporters in liver. The deranged folate uptake together with reduced folate transporter levels in lipid rafts resulted in reduced folate levels in liver and thereby to its reduced levels in serum of ethanol-fed rats. The chronic ethanol ingestion led to decreased folate uptake in liver, which was associated with the decreased number of transporter molecules in the lipid rafts that can be ascribed to the reduced synthesis of these transporters.