Transgenic overexpression of human lecithin: cholesterol acyltransferase (LCAT) in mice does not increase aortic cholesterol deposition

Results from several atherosclerosis studies using morphometric procedures have proven controversial with regard to whether over-expression of human LCAT in transgenic (Tg) mice is atherogenic. The purpose of the present study was to determine the effect of 10-fold over-expression of human LCAT on aortic free and esterified cholesterol (EC) deposition as well as plasma lipoprotein cholesteryl ester (CE) fatty acid composition in mice fed an atherogenic diet containing cholic acid. C57Bl/6 (control) and human LCAT-Tg mice were fed chow or an atherogenic diet (15% of calories from palm oil, 1.0% cholesterol and 0.5% cholic acid) for 24 weeks before measurement of aortic cholesterol content. Compared with the chow diet, control and LCAT-Tg mice fed the atherogenic diet had a 2-fold increase in plasma total, free and EC, a 7-fold increase in plasma apoB lipoprotein cholesterol, and a 40-50-fold increase in hepatic cholesterol content. The aortic EC content was increased in control (0.7 vs. 1.2 mg/g protein) and LCAT-Tg (0.3 vs. 1.5 mg/g protein) mice fed the atherogenic diet compared with those consuming the chow diet; however, there was no difference in aortic free (14.4+/-6.8 vs. 18.5+/-7.7 mg/g protein) or esterified (1.2+/-1.0 vs. 1.5+/-1.2 mg/g protein) cholesterol content between atherogenic diet-fed control and LCAT-Tg mice, respectively. LCAT-Tg mice fed the atherogenic diet had a 2-fold increase in the ratio of saturated+monounsaturated to polyunsaturated CE species in plasma apoB lipoproteins compared with control mice (9.4+/-2.4 vs. 4.9+/-0.7). We conclude that over-expression of human LCAT in Tg mice fed an atherogenic diet containing cholic acid does not result in increased aortic cholesterol deposition compared with control mice, even though the CE fatty acid saturation index of plasma apoB lipoproteins was doubled.     

Hepatic cell-specific ATP-binding cassette (ABC) transporter profiling identifies putative novel candidates for lipid homeostasis in mice

BackgroundABC-transporters play an important role in lipid trafficking. Therefore, hepatic expression patterns of ABC-transporters involved in the regulation of cholesterol metabolism were evaluated.Methods and resultsRT-PCR analysis showed that the mRNA expression of 38 ABC-transporters detected in livers of C57Bl/6 mice varied greatly. Although most ABC-transporters were ubiquitously expressed, some members displayed very restricted expression patterns, e.g. ABCA6, A8, B1, B8, B10, B11, C3, D2, and G5/G8 were exclusively (>99%) expressed in parenchymal cells. Interestingly, another 13 ABC-transporters, including ABCA4, A5, A9, A13, B2, B9, C1, C5, D3, D4, F2, G1, and G4 were primarily expressed in Kupffer cells. Although Kupffer cells only contribute to 2.5% of the total liver protein, these 13 genes did contain 9–27% of the total liver expression. Western-type diet feeding (0.25% cholesterol, 15% fat) induced the expression of several primarily Kupffer cell expressed genes, including ABCA5, B9, D3, and D4 (2 to 3-fold higher), whereas the other ABC-transporters were not significantly changed.ConclusionsOur findings underscore the importance of cellular localization for studying the regulation of key ABC-transporters in liver cholesterol homeostasis. Furthermore, several novel ABC-transporters, including ABCA5, B9, D3, and D4 were identified as putative novel candidates involved in liver macrophage cholesterol homeostasis.     

Effect of age and dietary composition on aortic collagen to elastin ratio and on lipid metabolism in F-344 rat

The effects of aging, dietary fat, cholesterol and cholic acid content on the aortic collagen : elastin ration and on the lipid level in rat serum and liver were investigated. Body weight gain was not affected by the dietary fat, cholesterol or cholic acid content; feeding of a cholesterol and cholic acid containing diet increased the liver weight, especially in younger rats. With age, serum cholesterol, triglyceride, phospholipid, and lipidperoxide levels increased, while the hepatic cholesterol and triglyceride content did not. Supplementary dietary cholesterol and cholic acid increased the lipid level in serum and liver. Quantitative and qualitative changes in the thoracic aorta began at an early stage of aging, they were correlated with an increase in serum lipidperoxide, cholesterol and triglyceride.     

Phenotypic Changes in Macrophage Activation in a Model of Nonalcoholic Fatty Liver Disease using Microminipigs

Aim: Non-alcoholic fatty liver disease (NAFLD) is one of the most common chronic liver disorders associated with metabolic syndrome, and its prevalence has been on the rise. The pathogenesis of NAFLD has not yet been sufficiently elucidated due to the multifactorial nature of the disease, although the activation of macrophages/Kupffer cells is considered to be involved. We previously reported an animal model of NAFLD using Microminipigs ^TM (µMPs) fed high-fat diets containing cholesterol with or without cholic acid. The aim of this study was to investigate the phenotypic changes of macrophages that occur during the development of NAFLD. Methods: Immunohistochemistry of macrophages, lymphocytes, and stellate cells was performed using liver samples, and the density of positive cells was analyzed. Results: The number of Iba-1-positive macrophages increased with increasing cholesterol content in the diet. The numbers of CD163-positive macrophages and CD204-positive macrophages also increased with increasing cholesterol content in the diet; however, the proportion of CD204-positive macrophages among Iba-1-positive macrophages was significantly reduced by cholic acid supplementation. Conclusion: The results suggest that lipid accumulation induced macrophage recruitment in swine livers, and that the number of M2-like macrophages increased at the early stage of NAFLD, while the number of M1-like macrophages increased at the late stage of NAFLD, resulting in a liver condition like non-alcoholic steatohepatitis. We provide evidence of the phenotypic changes that occur in macrophages during the development of NAFLD that has never been reported before using µMPs.     

Sterol carrier protein 2 gene transfer changes lipid metabolism and enterohepatic sterol circulation in mice

BACKGROUND & AIMS: Sterol carrier protein 2 (SCP-2) enhances sterol cycling and facilitates cholesterol translocation between intracellular organelles and plasma membrane in cultured cells, including hepatocytes. We examined the role of SCP-2 in hepatic cholesterol and lipid trafficking through the sinusoidal and canalicular secretory pathways of the liver in vivo. METHODS: Recombinant adenovirus-mediated SCP-2 gene transfer was used to obtain hepatic overexpression of SCP-2 in C57BL/6 mice. RESULTS: SCP-2 overexpression in the mouse liver resulted in an 8-fold increase of SCP-2 protein levels and determined various effects on lipid metabolism. It decreased high-density lipoprotein cholesterol and increased low-density lipoprotein (LDL) cholesterol concentrations. The expressions of hepatic LDL receptor, apolipoprotein (apo) A-I, apoB, and apoE were decreased. SCP-2 overexpression also increased hepatic cholesterol concentration, associated with decreased cholesterol neosynthesis. Increased biliary cholesterol and bile acid secretion, bile acid pool size, and intestinal cholesterol absorption were also observed. CONCLUSIONS: These results indicate that modulation of SCP-2 expression in the liver determines important modifications on lipoprotein metabolism, hepatic cholesterol synthesis and storage, biliary lipid secretion, bile acid metabolism, and intestinal cholesterol absorption.     

The ATP binding cassette transporter A1 (ABCA1) modulates the development of aortic atherosclerosis in C57BL/6 and apoE-knockout mice

Identification of mutations in the ABCA1 transporter (ABCA1) as the genetic defect in Tangier disease has generated interest in modulating atherogenic risk by enhancing ABCA1 gene expression. To investigate the role of ABCA1 in atherogenesis, we analyzed diet-induced atherosclerosis in transgenic mice overexpressing human ABCA1 (hABCA1-Tg) and spontaneous lesion formation in hABCA1-Tg x apoE-knockout (KO) mice. Overexpression of hABCA1 in C57BL/6 mice resulted in a unique anti-atherogenic profile characterized by decreased plasma cholesterol (63%), cholesteryl ester (63%), free cholesterol (67%), non-high density lipoprotein (HDL)-cholesterol (53%), and apolipoprotein (apo) B (64%) but markedly increased HDL-cholesterol (2.8-fold), apoA-I (2.2-fold), and apoE (2.8-fold) levels. These beneficial changes in the lipid profile led to significantly lower (65%) aortic atherosclerosis in hABCA1-Tg mice. In marked contrast, ABCA1 overexpression had a minimal effect on the plasma lipid profile of apoE-KO mice and resulted in a 2- to 2.6-fold increase in aortic lesion area. These combined results indicate that overexpression of ABCA1 in C57BL/6 mice on a high cholesterol diet results in an atheroprotective lipoprotein profile and decreased atherosclerosis, and thus provide previously undocumented in vivo evidence of an anti-atherogenic role for the ABCA1 transporter. In contrast, overexpression of ABCA1 in an apoE-KO background led to increased atherosclerosis, further substantiating the important role of apoE in macrophage cholesterol metabolism and atherogenesis. In summary, these results establish that, in the presence of apoE, overexpression of ABCA1 modulates HDL as well as apoB-containing lipoprotein metabolism and reduces atherosclerosis in vivo, and indicate that pharmacological agents that will increase ABCA1 expression may reduce atherogenic risk in humans.     

Effect of human scavenger receptor class A overexpression in bone marrow-derived cells on cholesterol levels and atherosclerosis in ApoE-deficient mice

In the arterial wall, scavenger receptor class A (SRA) is implicated in pathological lipid deposition. In contrast, in the liver, SRA is suggested to remove modified lipoproteins from the circulation, thereby protecting the body from their pathological action. The role of SRA on bone marrow-derived cells in lipid metabolism and atherogenesis was assessed in vivo by transplantation of bone marrow cells overexpressing human SRA (MSR1) to apoE-deficient mice. In vitro studies with peritoneal macrophages from the transplanted mice showed that macrophage scavenger receptor function, as measured by cell association and degradation studies with acetylated LDL, was approximately 3-fold increased on overexpression of MSR1 in bone marrow-derived cells as compared with control mice. Despite the increased macrophage scavenger receptor function in vitro, no significant effect of MSR1 overexpression in bone marrow-derived cells on the in vivo atherosclerotic lesion development was found. In addition to arterial wall macrophages, liver sinusoidal Kupffer cells also overexpress MSR1 after bone marrow transplantation, which may scavenge atherogenic particles more efficiently from the blood compartment. Introduction of bone marrow cells overexpressing human MSR1 in apoE-deficient mice induced a significant reduction in serum cholesterol levels of approximately 20% (P:<0.001, 2-way ANOVA) as the result of a decrease in VLDL cholesterol. It is suggested that the reduction in VLDL cholesterol levels is due to increased clearance of modified lipoproteins by the overexpressed MSR1 in Kupffer cells of the liver, thereby protecting the arterial wall against the proatherogenic action of modified lipoproteins.     

Isolation and characterization of biliary epithelial cells from normal rat liver

A cell fraction enriched in biliary epithelial cells (BEC) has been isolated from the liver of normal rats. The procedure involved proteolytic digestion by trypsin and mild mechanical disruption of biliary ductular and connective tissue that remained undigested after collagenase-hyaluronidase perfusion. An adherence procedure removed the large majority of contaminating Kupffer cells. The majority (87.4 +/- 3.5%) of the cells were positive to an indirect immunofluorescence staining that used an antiserum against bovine hoof prekeratin that specifically recognizes intermediate filaments of biliary epithelium. Similar results were obtained by histochemical staining for gamma-glutamyltranspeptidase activity. The contamination of the BEC fraction with Kupffer cells and hepatocytes was approximately 7% and 2%, respectively. The viability of the BEC population was always more than 90%. The BEC and hepatocytes were analysed for their lipid composition; the BEC were found to have a cholesterol content approximately 6-times higher than hepatic parenchymal cells, with a cholesterol/phospholipid molar ratio of 0.53 in comparison to a value of 0.11 for hepatocytes. No detectable evidence of cytochrome P-450 or cytochrome P-450-related enzymatic activities was found in the BEC.     

Lack of interleukin-1α in Kupffer cells attenuates liver inflammation and expression of inflammatory cytokines in hypercholesterolaemic mice

BackgroundThe role of Kupffer cell interleukin (IL)-1 in non-alcoholic steatohepatitis development remains unclear.AimsTo evaluate the role of Kupffer cell IL-1α, IL-1β or IL-1 receptor type-1 (IL-1R1) in steatohepatitis.MethodsC57BL/6 mice were irradiated and transplanted with bone marrow-derived cells from WT, IL-1α−/−, IL-1β−/− or IL-1R1−/− mice combined with Kupffer cell ablation with Gadolinium Chloride, and fed atherogenic diet. Plasma and liver triglycerides and cholesterol, serum alanine aminotransferase (ALT), liver histology and expression levels of inflammatory genes were assessed.ResultsThe ablation and replacement of Kupffer cells with bone marrow-derived cells was confirmed. The atherogenic diet elevated plasma and liver cholesterol, reduced plasma and liver triglycerides and increased serum ALT levels in all groups. Steatosis and steatohepatitis were induced, but without liver fibrosis. A reduction in the severity of portal inflammation was observed only in mice with Kupffer cell deficiency of IL-1α. Accordingly, liver mRNA levels of inflammatory genes encoding for IL-1α, IL-1β, TNFα, SAA1 and IL-6 were significantly lower in mice with Kupffer cell deficiency of IL-1α compared to WT mice.ConclusionSelective deficiency of IL-1α in Kupffer cells reduces liver inflammation and expression of inflammatory cytokines, which may implicate Kupffer cell-derived IL-1α in steatohepatitis development.     

Deficiency of Niemann‐Pick C1 protein protects against diet‐induced gallstone formation in mice

Background/aims: Receptor‐mediated endocytosis is a critical cellular mechanism for the uptake of lipoprotein cholesterol in the liver. Because Niemann‐Pick C1 (NPC1) protein is a key component for the intracellular distribution of cholesterol originating from lipoprotein endocytosis, it may play an important role in controlling biliary cholesterol secretion and gallstone formation induced by a lithogenic diet. Methods: We studied biliary cholesterol secretion, gallbladder lipid composition and gallstone formation in NPC1‐deficient mice fed a low‐fat lithogenic diet (1.5% cholesterol and 0.5% cholic acid) compared with control animals under the same diet. Results: The lipid secretion response to the lithogenic diet was impaired in NPC1 (?/?) mice, leading to a decreased cholesterol output and an increased hepatic cholesterol concentration compared with the lithogenic diet‐fed wild‐type mice. A decreased cholesterol saturation index was found in the gallbladder bile of NPC1 (+/?) and (?/?) mice after lithogenic diet feeding. Consequently, mice with a partial or a total deficiency of NPC1 had a drastically lower frequency of gallbladder cholesterol crystals and a reduced prevalence of gallstones. Conclusion: Hepatic NPC1 expression is an important factor for regulating the biliary secretion of diet‐derived cholesterol as well as for diet‐induced cholesterol gallstone formation in mice.     

Very early aortic responses during atherosclerosis induction in rabbits: measurement by duplex ultrasound. I. Non-invasive study of aortic hyperresponsiveness to serotonin

We report the use of a non-invasive ultrasound method to visualize and measure changes in serotonin reactivity of the abdominal aorta during the early stages of atherosclerosis development. Studies were performed at 0, 4, 8, and 14 weeks in New Zealand white rabbits fed a diet enriched with 0.5% cholesterol. Change in systolic vessel diameter at each examination was compared with changes in rabbits fed a control diet or rabbits on a diet enriched with cholesterol plus a concentrated marine lipid. After 4 weeks on the diets, the abdominal aortae of rabbit fed the cholesterol-rich diet displayed an enhanced vasoconstriction to serotonin (P less than 0.01). The enhanced vasoconstriction was observed prior to visible morphologic changes, and progressed when restudied at succeeding examinations. Morphologic abnormalities became evident at 8 weeks in cholesterol-fed animals. Dietary supplementation with marine lipid, rich in polyunsaturated fatty acids, diminished the effect of the atherogenic diet on aortic vasoconstriction.     

Immunohistochemical characterization of hepatic malondialdehyde and 4-hydroxynonenal modified proteins during early stages of ethanol-induced liver injury

BACKGROUND: Chronic ethanol consumption is associated with hepatic lipid peroxidation and the deposition or retention of aldehyde-adducted proteins postulated to be involved in alcohol-induced liver injury. The purpose of this study was to characterize hepatocellular formation of aldehyde-protein adducts during early stages of alcohol-induced liver injury. METHODS: Female Sprague Dawley(R) rats were subjected to the intragastric administration of a low-carbohydrate/high-fat total enteral nutrition diet or a total enteral nutrition diet containing ethanol for a period of 36 days. Indexes of hepatic responses to ethanol were evaluated in terms of changes in plasma alanine aminotransferase activity, hepatic histopathologic analysis, and induction of cytochrome P-4502E1 (CYP2E1). Immunohistochemical methods were used to detect hepatic proteins modified with malondialdehyde (MDA) or 4-hydroxynonenal (4-HNE) for subsequent quantitative image analysis. RESULTS: After 36 days of treatment, rats receiving the alcohol-containing diet displayed hepatic histopathologies characterized by marked micro- and macrosteatosis associated with only minor inflammation and necrosis. Alcohol administration resulted in a 3-fold elevation of plasma alanine aminotransferase activity and 3-fold increases (p < 0.01) in hepatic CYP2E1 apoprotein and activity. Quantitative immunohistochemical analysis revealed significant (p < 0.01) 5-fold increases in MDA- and 4-HNE modified proteins in liver sections prepared from rats treated with alcohol. The MDA- or 4-HNE modified proteins were contained in hepatocytes displaying intact morphology and were colocalized primarily with microvesicular deposits of lipid. Aldehyde-modified proteins were not prevalent in parenchymal or nonparenchymal cells associated with foci of necrosis or inflammation. CONCLUSIONS: These results suggest that alcohol-induced lipid peroxidation is an early event during alcohol-mediated liver injury and may be a sensitizing event resulting in the production of bioactive aldehydes that have the potential to initiate or propagate ensuing proinflammatory or profibrogenic cellular events.     

Facilitated replacement of Kupffer cells expressing a paraoxonase-1 transgene is essential for ameliorating atherosclerosis in mice

Resident macrophages (i.e., Kupffer cells) are derived from hematopoietic stem cells (HSCs) and are primarily responsible for the removal from plasma of oxidized forms of low-density lipoprotein (LDL). The therapeutic potential of Kupffer cell expression of a transgene encoding paraoxonase-1 (PON1), whose plasma activity correlates with the protection from atherosclerosis, was examined in mice rendered atherosclerosis-susceptible through genetic deletion of the LDL receptor. Mice having their bone marrow engrafted with HSCs expressing the PON1 transgene (PON1-Tg) driven by a macrophage-specific promoter were injected i.v. with saline (vehicle only) or with gadolinium chloride (GdCl(3)), an agent that rapidly causes Kupffer cell apoptosis. One month later, GdCl(3)-facilitated Kupffer cell apoptosis increased the hepatic expression of transgenic PON1 mRNA by 9-fold. After 12 weeks of being fed a cholesterol-enriched atherogenic diet, mice injected with GdCl(3) exhibited 50% reductions in both aortic sinus atherosclerotic lesions (P < 0.0097) and surface lesions of the abdominal aorta (P < 0.006). In contrast, mice receiving HSCs expressing the PON1-Tg but not treated with GdCl(3) showed no protection from atherosclerosis. In addition, mice engrafted with HSCs not expressing the PON1-Tg but injected with GdCl(3) also showed no protection from atherosclerosis. These findings, showing that GdCl(3)-enhanced hepatic expression of the PON1-Tg is essential for reducing atherosclerosis, indicate that Kupffer cells play an important role in atherogenesis. GdCl(3)-facilated replacement of Kupffer cells may enhance the efficacy of other HSC-based gene therapies.     

Exercise training does not reduce hyperlipidemia in pigs fed a high-fat diet

The pig is often used as a model for studying lipoprotein metabolism as it relates to human atherosclerosis, but few studies have examined the complete lipoprotein profile and related enzymes in swine ingesting an atherogenic diet. We examined whether exercise training would moderate the effects of an atherogenic diet on lipoproteins and lipoprotein lipase (LPL) activity in miniature swine. Male (n = 30) and female (n = 32) swine were initially divided into 2 dietary groups: one consumed low-fat (8%) pig chow, and one consumed pig chow supplemented with 2% cholesterol, 17.1% coconut oil, 2.3% corn oil, and.7% sodium cholate (46% kcal from fat). Following 30 days on the diets, pigs from each diet group were further divided into sedentary and exercise trained subgroups, each cell with 6 to 8 pigs. Training occurred 5 days per week on a treadmill in which the intensity and duration were progressively increased during the 16- to 20-week training period to 75 minutes of aerobic running per session. A 4-way analysis of variance (ANOVA) with repeated measures on time indicated that at the conclusion of the study the atherogenic diet caused significantly (P <.05) increased cholesterol, triglyceride (TG), high-density lipoprotein cholesterol (HDL-C) and subfractions, low-density lipoprotein cholesterol (LDL-C) and subfractions, and LPL activity in both genders. For cholesterol, TG, HDL-C, HDL(2)-C, LDL-C, LDL(1&2)-C, and hepatic lipase, the female response to the diet was exaggerated compared to the male response. Exercise training produced no group differences or interactions on any lipoprotein variable. These results suggest that an atherogenic diet has a greater impact on the lipoproteins of female miniature swine than males. Furthermore, under the conditions of this study, exercise training does not moderate the effects of an atherogenic diet on lipoproteins.     

Protective role of eicosapentaenoate-lipoate (EPA-LA) derivative in combating oxidative hepatocellular injury in hypercholesterolemic atherogenesis

The aim of the present study is to evaluate the effect of eicosapentaenoic acid (EPA), dl-alpha-lipoic acid (LA) and eicosapentaenoate-lipoate (EPA-LA) derivative on the atherogenic disturbances in hypercholesterolemic atherogenic animals. Eight groups of male Wistar rats were employed in this study, wherein four groups were fed with a high cholesterol diet (rat chow supplemented with 4% cholesterol and 1% cholic acid; HCD) for 30 days, among which, three groups of rats were also treated with either EPA (35 mg/kg body weight/day, oral gavage), LA (20 mg/kg body weight/day, oral gavage) or EPA-LA derivative (50 mg/kg body weight/day, oral gavage) commencing from 16th day of the experimental period. The remaining four groups served as control and EPA, LA and EPA-LA derivative treated drug controls. Abnormal increases in the levels of malondialdehyde, protein carbonyl and 8-hydroxy-2-deoxyguanosine, as well as depressed antioxidants status, were observed in hepatic tissue of HCD fed rats. HCD induced abnormal elevation in the activities of hepatic lactate dehydrogenase, aminotransferases and alkaline phosphatase (ALP) and was accompanied by increased hepatic cholesterol level and altered fatty changes in the histology of liver. These changes were restored partially in the EPA and LA administered groups. However, the combined derivative EPA-LA almost ameliorated the hypercholesterolemic-oxidative changes in the HCD fed rats. The results of this study present oxidative injury induced by hypercholesterolemic diet and administration of the combination treatment of EPA-LA afforded sound protection against lipemic-oxidative injury.     

Biliary lipids, faecal steroids, and liver function in patients with chronic active hepatitis and primary biliary cirrhosis: significance of hepatic orcein-stained complexes.

Biliary lipids, faecal steroids, and serum bile acids were studied in patients with chronic active hepatitis and primary biliary cirrhosis. The results were correlated with excretory and parenchymal liver function tests and with the presence or absence of orcein-positive copper-protein complexes in histological liver specimens. In general, faecal bile acids, but not neutral and total sterols, correlated negatively with the percentage of biliary cholic acid, serum cholesterol, and serum bile acids and positively with the percentage of biliary deoxycholic acid. In orcein-positive subjects-indicative of long-standing cholestasis-the bile was undersaturated with cholesterol, biliary deoxycholic acid was subnormal, cholic acid correspondingly increased, and serum cholesterol and bile acids were raised. Only patients with marked impairment of both excretory and parenchymal liver functions had a decreased output of neutral sterols, bile acids, and total steroids, and, thus, low bile acid and cholesterol synthesis. The findings indicate that mild disturbances in parenchymal liver function infrequently cause major changes in cholesterol metabolism, while abnormalities in secretory liver function-in orcein-positive subjects especially-are frequently associated with proportionate changes in parameters of cholesterol metabolism.     

Methionine-induced elevation of plasma homocysteine concentration is associated with an increase of plasma cholesterol in adult rats

BACKGROUND AND AIMS: Dietary methionine affects cholesterol metabolism in growing rats. Methionine effects on adult rats and mechanisms by which methionine alters the lipid metabolism are not fully elucidated. We investigated possible mechanisms by which dietary methionine acts on lipid metabolism of adult rats. METHODS: Male adult rats were divided into three groups (n=10) and were fed casein-based diets differing in methionine concentration (low-methionine diet: 0.96 g/kg; adequate-methionine diet: 2.22 g/kg, high-methionine diet: 6.82 g/kg) for 4 weeks. Concentrations of triacylglycerols and cholesterol in plasma and lipoproteins, concentration of homocysteine in plasma, concentration of cholesterol in liver, fecal lipid excretion, expression of hepatic HMG-CoA reductase, phosphatidylethanolamine N-methyltransferase 2 (PEMT-2) and of LDL receptor were measured. RESULTS: Rats fed the high-methionine diet had higher plasma homocysteine concentrations than rats fed the low-methionine diet (p<0.05). Although concentrations of cholesterol in plasma and lipoproteins were not different between the groups, there was a distinct positive correlation between circulating plasma homocysteine and plasma cholesterol (R(2)=0.55, p<0.001). The fecal excretion of cholesterol and bile acids was not altered by dietary methionine. The relative mRNA concentration of HMG-CoA reductase and of LDL receptor remained unaffected by dietary methionine. Gene expression of PEMT-2 was higher in rats fed the high-methionine diet than in rats fed the other diets (p<0.05). CONCLUSION: The results demonstrate that dietary methionine contributes to a rise in circulating homocysteine concentration which positively correlates with the concentration of plasma cholesterol. However, the effects of methionine on cholesterol metabolism of adult rats were relatively weak.