Lipid metabolism responses in rats fed beef tallow, native or randomized fish oil and native or randomized peanut oil

In experiments with male Wistar rats, we measured the effects of nonpurified diets containing 9.1% added fat (beef tallow, native or randomized fish oil, native or randomized peanut oil) on apparent digestibility of total fat and individual fatty acids. We also investigated the effects of the diets on plasma contents of triglyceride, cholesterolesters and free and total cholesterol as well as on the fatty acid profiles of plasma and liver phospholipids. Randomization of fish oil or peanut oil had no significant effect on any of the lipid measurements. Fat digestibility was significantly lower in the rats fed beef tallow. Apparent absorption of 18:1(n-9) and polyunsaturated fatty acids was not dependent on the fatty acid profile of the dietary fat. Apparent absorption of 16:1(n-7) and saturated fatty acids was generally highest in the rats fed fish oil. Intake of fish oil or peanut oil significantly decreased plasma triglyceride content. Intake of fish oil resulted in substantially decreased contents of total cholesterol and cholesterolesters in plasma, but intake of peanut oil did not. Efficiency of conversion of 18:2(n-6) into 20:4(n-6) was inhibited by long-chain (n-3) fatty acids.     

Abstracts of Recent Articles on Nutrition and Cancer

This study was designed to determine the effect of diets enriched with plant and animal fats on oxidative stress and glutathione metabolism in rabbit liver tissues. This study was conducted to investigate whether the type of dietary fat will impact fatty acid composition and oxidant/antioxidant status in tissues.

Rabbits were fed diets containing 2 g corn oil/100 g diet (low fat diet, LF) and LF supplemented with 16 g/100 g diet of either corn oil (CO), CO with added cholesterol (CO + C), milk fat (MF), chicken fat (CF), beef tallow (BT), or lard (L) for 30 days. After the feeding period, livers were analyzed for total fatty acid composition, thiobarbituric acid reactive substances (TBARS), conjugated dienes, and reduced glutathione (GSH), as well as for activities of glutathione peroxidase (GP) and glutathione reductase (GR). Moreover, to fully determine the oxidative stability and free radical trapping capacity, TBARS levels were measured after additional exposure of liver homogenates to 10 mM 2,2(1)-azo-bis-amidinopropane- hydrochloride (AAPH) for up to 21 hours.

CO and CF, but not saturated fats such as MF, increased liver conjugated diene and TBARS levels and decreased liver GSH levels and GP activity. In tissues additionally exposed to AAPH, the maximum oxidation, measured as TBARS, was reached between 6 and 7 hours of treatment, independent of dietary fat. In addition, there was a marked effect of AAPH on the maximum rate of TBARS formation with the following descending order: CO > CF > CO + C > L > MF > BT > LF. This high susceptibility to oxidative stress in liver tissues of rabbits fed the CO diet may be explained in part by the significant elevation in linoleic acid (18:2n-6).

There appears to be an inverse correlation between dietary fat-mediated oxidative stress and antioxidant enzyme activities. The present data suggest that high levels of dietary unsaturated fat should be avoided if oxidative stress is a critical issue in nutrition-related diseases. In addition, these data support our hypothesis that diets rich in MF provide a lipid environment with low susceptibility to oxidative stress.     

Dietary fat saturation affects glucose metabolism without affecting insulin receptor number and affinity in adipocytes from BHE rats

The effects of dietary fat source on epididymal fat cell insulin receptor binding and affinity and on glucose transport and use by genetically diabetic rats were studied. Male BHE rats were fed 6% fat/64% sucrose diets. The fat consisted of 1% corn oil plus 5% beef tallow, menhaden oil or corn oil. Glucose tolerance was assessed at 100, 300 and 600 d of age. At 100 d of age the fat pads were excised, isolated adipocytes prepared and insulin receptor number, receptor affinity, 3-O-methyl glucose uptake and glucose use determined. Insulin receptor number and binding affinity were not affected by dietary fat type. The transport and subsequent use of glucose were greater in fat cells from rats fed beef tallow compared with those from rats fed corn oil or menhaden oil. All three groups exhibited a deterioration in glucose tolerance with age. Although we observed greater glucose transport, oxidation and conversion to fatty acids in beef tallow-fed rats, we saw no differences in these measurements between cells from corn or menhaden oil-fed rats. Thus, we conclude that the effects of these dietary lipids are attributable to effects of saturated fatty acids on intracellular events rather than on the insulin receptor per se, and that the type of unsaturated fatty acid [(n-3) vs. (n-6)] is of little importance to the regulation of glucose metabolism by isolated adipocytes.     

Effect of dietary medium chain triglyceride on lipogenic enzyme activity in rat liver

This study was conducted to confirm that medium chain triglyceride (MCT) feeding itself would increase hepatic lipogenic enzyme activity without causing a lack of essential fatty acids (EFA) in the liver. Male weaning rats were fed for 11 weeks on diets containing 2% corn oil and 13% various fats: MCT, corn oil, tripalmitin or beef tallow, respectively. MCT feeding was clearly shown to increase the activities of fatty acid synthetase (FAS) and malic enzyme (ME) in the liver. Rats weighing 170 g were pair-fed for 7 days on diets containing 15% MCT, 13% MCT + 2% corn oil, 15% corn oil, and 2% corn oil and no fat (control groups), respectively, under a fixed level of carbohydrate (sucrose). The addition of 2% corn oil to MCT (13%) did not depress these enzyme activities, even though supplementing the fat-free diet with 2% corn oil resulted in a significant decline in the activities. When the rats received various amounts of MCT, the extent to which the degree of FAS and ME activities increased by MCT feeding depended on the amount of MCT in the dietary fat mixture with corn oil. Supplement of over 5% corn oil to MCT diets did not inhibit them sufficiently. In the liver lipids of animals fed MCT, there were no appearances of 20:3 omega 9 (5,8,11-eicosatrienoic acid), but the levels of mono-unsaturated fatty acids were increased by MCT feeding. The results suggest that MCT ingestion itself enhances lipogenic enzyme activity via some metabolic charge.     

Dose-response relationships between dietary (n-3) fatty acids and plasma and tissue lipids, steroid excretion and urinary malondialdehyde in rats.

For a 28-d experimental period, rats were fed a nonpurified, cereal-based diet containing 9.1% supplemental beef tallow or fish oil or one of the following beef tallow:fish oil blends: 95:5; 90:10; 80:20 and 50:50. All diets provided between 21.3 and 22.7 g linoleic acid/kg. Higher fish oil intake was paralleled by elevated incorporation of long-chain (n-3) fatty acids in plasma total lipid, mainly at the expense of arachidonic acid. Significant inverse relationships were found between plasma total (n-3) fatty acid concentration and plasma triglyceride, cholesterol or free fatty acid concentrations. Fish oil intake did not lead to a shift of triglycerides or cholesterol from the plasma to the tissues (liver, heart, kidneys). Reduced plasma cholesterol concentrations in the fish oil-fed rats could not be explained by higher fecal excretion of neutral sterols and bile acids. In vivo lipid peroxidation, assessed by urinary malondialdehyde excretion, was enhanced when diets containing greater than 1.8% fish oil were fed.     

Dietary soya protein concentrate enriched with isoflavones reduced fatty liver, increased hepatic fatty acid oxidation and decreased the hepatic mRNA level of VLDL receptor in obese Zucker rats

Casein-based diets containing a low (LDI) or high (HDI) dose of soya protein concentrate enriched with isoflavones were fed to obese Zucker rats for 6 weeks. HDI feeding, but not LDI feeding, reduced the fatty liver and decreased the plasma levels of alanine transaminase and aspartate transaminase. This was accompanied by increased activities of mitochondrial and peroxisomal beta-oxidation, acetyl-CoA carboxylase, fatty acid synthase and glycerol-3-phosphate acyltransferase in liver and increased triacylglycerol level in plasma. The decreased fatty liver and the increased plasma triacylglycerol level appeared not to be caused by an increased secretion of VLDL, as HDI decreased the hepatic mRNA levels of apo B and arylacetamide deacetylase. However, the gene expression of VLDL receptor was markedly decreased in liver, but unchanged in epididymal white adipose tissue and skeletal muscle of rats fed HDI, indicating that the liver may be the key organ for the reduced clearance of triacylglycerol-rich lipoproteins from plasma after HDI feeding. The n-3/n-6, 20:4n-6/18:2n-6 and (20:5n-3+22:6n-3)/18:3n-3 ratios were increased in liver triacylglycerol by HDI. The phospholipids in liver of rats fed HDI contained a low level of 20:4n-6 and a high level of 20:5n-3, favouring the production of anti-inflammatory eicosanoids. When obese Zucker rats were fed soya protein, this also resulted in reduced fatty liver, possibly through reduced clearance of VLDL by the liver. We conclude that the isoflavone-enriched soya concentrate as well as soya protein may be promising dietary supplements for treatment of non-alcoholic fatty liver.     

Changes in colonic antioxidant status in rats during long-term feeding of different high fat diets.

The effects of dietary fat on antioxidant mechanisms in colon mucosa were examined using male Sprague-Dawley rats. Animals were fed one of four AIN-76A-based test diets differing in amount and type of fat. The basal diet (BD) contained 5% corn oil; the menhaden oil diet (MO) contained 1% corn oil and 19% menhaden oil; the corn oil diet (CO) contained 20% corn oil; and the beef tallow diet (BT) contained 1% corn oil and 19% beef tallow; all were adjusted to provide equal amounts of other nutrients per kilojoule. Homogenates of colon mucosa were assayed after 2 wk and 1, 3, 6 and 9 mo for activities of catalase (CAT), glutathione peroxidase (GSHPx), superoxide dismutase (SOD), glutathione-S-transferase, glutathione reductase (GSSGRx), and total glutathione (GSH) content. Activity of GSHPx was depressed in rats fed high fat diets compared with rats fed the low fat BD. Animals fed the BD and MO diets had higher levels of CAT and GSSGRx as compared with rats fed the CO and BT diets. Activities of SOD, GSSGRx and GSHPx, as well as GSH concentration, decreased over time. Ornithine decarboxylase activity was not induced by the high fat diets. Thiobarbituric acid-reacting substances were virtually undetectable. Thus, both type and amount of fat affected antioxidant mechanisms in colon mucosa without producing overt oxidative damage in the tissue.     

Adipose tissue triacylglycerols of rats are modulated differently by dietary isomeric octadecenoic acids from coriander oil and high oleic sunflower oil

Earlier feeding studies of rats revealed that petroselinic acid [18:1(n-12)] from triacylglycerols of coriander (Coriandrum sativum) oil is extensively incorporated into the lipids of heart and liver and metabolized via beta-oxidation and chain elongation. We report here the composition and stereospecific distribution of acyl moieties, particularly isomeric octadecenoyl moieties, in adipose tissue triacylglycerols of male weaned Wistar rats fed diets containing, in addition to 20 g corn oil/kg feed, 120 g coriander oil per kg feed at a level of 63 g 18:1(n-12) moieties/100 g acyl moieties of the oil for 10 wk. For comparison, a group of rats was fed a similar corn oil-containing isocaloric diet with large proportions of oleoyl moieties [18:1(n-9)] from high oleic sunflower oil [72 g 18:1(n-9)/100 g acyl moieties of the oil]. The composition of the triacylglycerols of epididymal, subcutaneous and perirenal adipose tissues was very similar for each feeding group, broadly reflecting the composition of the dietary oils. Feeding coriander oil, compared with high oleic sunflower oil, led to extensive incorporation of 18:1(n-12) into the triacylglycerols of the adipose tissues with a concomitant significantly and dramatically lower 18:1(n-9) concentration and, as a consequence, to the generation of triacylglycerol species containing 18:1(n-12) moieties. Petroselinoyl moieties from coriander oil were esterified predominantly at the sn-1,3 positions of the adipose tissue triacylglycerols; 18:1(n-9) moieties from high oleic sunflower oil were fairly evenly distributed between the sn-1,3 and sn-2 positions. We suggest that acyltransferases involved in the biosynthesis of adipose tissue triacylglycerols direct 18:1(n-12) moieties preferentially to sn-1,3-positions.     

The effect of dietary fat on metastasis of the Lewis lung carcinoma and the BALB/c mammary carcinoma

The effect of feeding mice diets high in beef tallow (high in saturated fat) or corn oil (high in polyunsaturated fat) on the production of lung metastases by the Lewis lung carcinoma and the BALB/c mammary tumor was determined. Diets were fed ad libitum, and the mice fed the high-fat (24.6%) diets consumed more calories and gained more weight than those fed the control (5%) diets. With the Lewis lung carcinoma, we found that both high-fat diets significantly increased the growth of the primary tumor in the footpad as well as the number of spontaneous metastases produced after the primary was removed; this was in comparison with results from the appropriate control diets. With the BALB/c mammary tumor, the high-fat beef tallow diet (but not the corn oil diet) significantly increased the number of lung metastases formed after tail vein injection. In addition, the group given the control corn oil diet had more metastases than the group given the control beef tallow diet. Overall, these studies showed that the consumption of high-fat/high-calorie diets increased metastasis compared to the consumption of high-fat/high-calorie diets increased metastasis compared to the consumption of low-fat diets. However, the results varied depending on the tumor model used and the type of fat.     

Long-term feeding of corn oil, beef tallow, or menhaden oil and eicosanoid levels in BHE/cdb rats.

The effects of long-term feeding of 2 or 10% fat diets containing corn oil, beef tallow, or menhaden oil on the levels of eicosanoids in brain, plasma, and kidney medulla were studied. Male BHE/cdb rats, which carry a genetic trait for non-insulin-dependent diabetes mellitus, were fed these diets for 9 mo, at which time their glucose tolerance levels were determined, as were brain, kidney medulla, and plasma levels of PGE2, 6-keto-PGF1 alpha, and LTB4. Glucose tolerance was abnormal in the 2 and 10% corn oil groups and normal in the 10% menhaden oil groups. The glucose tolerance levels of the other groups were only slightly disturbed. The levels of LTB4 in kidney and plasma were not affected by dietary fat type or amount. LTB4 levels were significantly higher in the brains of rats fed a low level of beef tallow than in the brains of rats fed a higher level of beef tallow or a low level of menhaden or corn oil. LTB4 values for the brains of rats fed the other diets were intermediate and not different from the aforementioned values. The levels of 6-keto-PGF1 alpha were highest in rats fed the 10% corn oil diet regardless of the tissue assayed. Rats fed the 2 or 10% beef tallow or menhaden oil were not different but had lower levels of this eicosanoid metabolite than rats fed the corn oil diet. PGE2 levels followed the same pattern, suggesting that the impaired glucose tolerance of the corn oil-fed rats had a strong influence on the tissue levels of these eicosanoids.     

Fatty acid composition and arachidonate metabolites in the livers of ethanol-treated rats fed an arachidonate-supplemented diet: effect of dietary fat

The effects of 1% arachidonic acid ethyl ester (AA) administration on the liver prostanoid metabolites and on serum and liver lipids in 3 g/kg ethanol-administered rats fed 10% lard or corn oil were studied. The rats were divided into 6 groups: lard-sucrose (Lard-Suc); lard-ethanol without AA (Lard-Et); lard-ethanol with AA (Lard-EtAA); corn oil-sucrose (Corn-Suc); corn oil-ethanol without AA (Corn-Et); and corn oil-ethanol with AA (Corn-EtAA). Liver triglyceride increased in Corn-EtAA compared with Corn-Et. Arachidonic acid (20: 4n-6) levels in liver phospholipid were significantly decreased in Corn-Et, but elevated in Lard-Et. The levels of 20:4n-6 were significantly increased with AA administration in both ethanol groups. Liver 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) in Corn-Suc (24.7 +/- 5.1 pg/mg protein) was markedly higher than in Lard-Suc (4.5 +/- 1.2 pg/mg protein), and the 6-keto-PGF1 alpha lowered significantly with the addition of ethanol (9.3 +/- 0.9 pg/mg protein), but it increased with AA administration (21.6 +/- 4.9 pg/mg protein). In Lard-EtAA, a significant increase in 6-keto-PGF1 alpha was observed compared with Lard-Suc. The liver leukotriene B4 (LTB4) level in Lard-Suc was significantly lower than that of Corn-Suc. In the corn oil group, ethanol feeding was associated with a significant increase in liver LTB4. AA administration to Corn-Et suppressed the elevated LTB4. Serum thiobarbituric acid-reactive substance (TBARS) concentrations in the corn oil group were higher than in the lard group, and these concentrations were not altered by AA administration. From these results, we concluded that the administration of AA in rats treated with ethanol increased 20:4n-6 in liver phospholipid and liver PGI2 levels, irrespective of dietary fat, and may protect against alcoholic liver injury. AA with a diet rich in linoleic acid (18:2n-6), however, may increase fat in the alcoholic liver.     

银杏黄酮对雌性小鼠酒精性氧化损伤的保护作用

目的:研究酒精对雌性小鼠肝脏的慢性氧化损伤及银杏黄酮的干预效果。方法:昆明种雌性小鼠每天给予96mg/kgbw的银杏黄酮后,再给予乙醇3.2g/kgbw,同时设正常对照组和酒精对照组(乙醇3.2g/kgbw),连续灌胃75d后测定血清谷丙转氨酶(GPT)、谷草转氨酶(GOT)活性及血清与肝脏谷胱甘肽(GSH)、谷胱甘肽过氧化物酶(GSH-Px)、超氧化物岐化酶(SOD)、过氧化氢酶(CAT)的活性及丙二醛(MDA)的含量。结果:小鼠摄入酒精75d后,所检测的各项指标与正常对照组相比,均有非常显著性(P<0.01)差异;经银杏黄酮干预后,与酒精对照组相比,血清ALT、AST水平显著下降,肝脏与血清GSH-Px、SOD、CAT活性与GSH水平明显提高,MDA水平明显下降。结论:银杏黄酮对雌性小鼠肝脏慢性酒精性氧化损伤具有一定的保护作用。     

Effects of dietary lipid saturation on prolactin secretion, carcinogen metabolism and mammary carcinogenesis in rats

Isoenergetic diets containing 20% corn oil, 20% beef tallow, or an equal mixture of 10% corn oil and 10% beef tallow (mixed fat) were fed to 30 rats per diet for 28 weeks following weaning. DMBA [7,12-dimethylbenz(a)anthracene] was administered (1.75 mg/100 g body weight) in a single oral dose after 4 weeks of feeding. After 28 weeks, 70% of the rats fed corn oil had mammary tumors versus 47% for mixed fat and 30% for tallow. Diet had no effect on the number of tumors per tumor-bearing rat or the proportion of tumors that were adenocarcinomas. Other rats assigned to each of the three diets were killed at the time corresponding to DMBA administration for examination of hepatic mixed-function oxidase activity. NADPH cytochrome c reductase activity and cytochrome P-450 content were higher in rats fed corn oil or mixed fat rather than tallow. However, no significant differences in aryl hydrocarbon hydroxylase, glutathione transferase, and uridine-diphosphoglucuronide transferase activities were observed. The effects of dietary fat saturation on enzyme activity failed to show a clear association with DMBA carcinogenesis. In other rats assigned to the three dietary treatments for 4 or 16 weeks, lipid saturation did not change serum prolactin (PRL) concentrations during diestrus or proestrus. PRL secretion was examined following a provocative stimulus (perphenazine) in rats fed the experimental diets for 4 or 10-22 weeks. Although perphenazine increased serum PRL and depleted the pituitary of PRL, differences in dietary lipid saturation caused no significant changes in these indices. These data show that the incidence of mammary tumors in rats fed high fat diets (20% by weight) was greater in those fed corn oil compared to beef tallow. The effect of dietary lipid source on tumorigenesis was not associated with changes in carcinogen-metabolizing enzyme activity or PRL secretion.     

The choline requirement of the growing kitten in the presence of just adequate dietary methionine

This study was conducted to determine the level at which choline is required by the growing kitten fed a 33% soy protein diet containing methionine just at its required level and total sulfur amino acids in excess. All experimental diets were isocaloric with a calculated metabolizable energy of 5.0 kcal/g. The soy protein used in each diet contributed 0.04% choline by analysis, and six levels of added choline were studied: 0, 0.10, 0.15, 0.20, 0.25, and 0.30g choline per 100g of diet. Kittens were fed the diets for 30 days in a 4×6 randomized block design, and food intake and body weights were recorded three times weekly. At the end of the feeding period, the liver was removed and analyzed for water content and total lipids, and a heparinized blood sample was taken for subsequent analysis of plasma methionine, albumin, total protein, glutamate-oxaloacetate transaminase (GOT), glutamate-pyruvate transaminase (GPT) and γ-glutamyl transpeptidase (GGT) activities. Weight gain and liver lipid response curves exhibited a plateau at approximately 0.2% added choline. GOT and GPT activities were significantly higher in the plasma of kittens fed the diet with no added choline than in any other of the groups. However, activities of both enzymes in that group were within normal range. No effect of dietary choline concentration was seen on any other plasma parameter measured. Assuming that the bioavailability of the choline contributed by the dietary protein is 100%, data presented indicate that 0.24% choline in a diet of 33% protein and 5.0 kcal/g, is adequate to support maximal weight gain and minimal liver fat in the growing kitten, when methionine is present just at its required level, and total sulfur amino acids are present in excess.     

Body fat accumulation is greater in rats fed a beef tallow diet than in rats fed a safflower or soybean oil diet

The effects of dietary fats , consisting of different fatty acids, on body fat accumulation and uncoupling protein (UCP) in interscapular brown adipose tissue were studied in rats. Metabolisable energy in experimental diets based on safflower oil, soybean oil or beef tallow was measured strictly (experiment 1). Male Wistar rats were then meal-fed an isoenergetic diet for 8 weeks (experiment 2). Each group of rats showed the same weight gain during the 8-week experimental period. Carcass fat content was greater in rats fed the beef tallow diet than in those fed the with the safflower or soybean oil diets, whereas the weight of abdominal adipose tissue was the same for all three dietary groups. Gene expression of UCP1 and the UCP content of the interscapular brown adipose tissue was lower in the beef tallow diet group than in the other dietary groups. A negative correlation was observed between carcass fat content and n-6 unsaturated fatty acid content in dietary fats. These results suggest that the greater body fat accumulation in rats fed the beef tallow diet results from lower expression of UCP1 mRNA and lower UCP content in brown adipose tissue. n-6 Polyunsaturated fatty acids may be the most effective fatty acids in limiting body fat.     

Effects of sources of dietary fat and protein on tissue cholesterol

Dietary variables were soy oil, beef tallow, soy protein, and casein. Dietary combinations were soy oil-soy protein, soy-oil casein, beef tallow-soy protein, and beef tallow-casein, and 96 rats were allotted randomly to the four isocaloric diets. [Crystalline cholesterol was added to standardize each diet at 0.2%.] Two randomly selected rats from each dietary group were killed at 0, 7, 9, 11, 13, 15, 18, 22, 30, 36, 42, and 48 days on experiment to determine the effects of sources (plant versus animal) of dietary fat and protein on tissue cholesterol concentrations and on cholesterogenesis in liver and small intestine. Feeding soy oil, a polyunsaturated fat, resulted in lower blood cholesterol concentrations, higher liver cholesterol concentrations, and lower intestinal cholesterogenesis than did feeding beef tallow, a saturated fat. Feeding soy protein, a plant protein, resulted in lower blood and liver cholesterol concentrations and less intestinal cholesterogenesis than did feeding casein, an animal protein. Hepatic cholesterogenesis and intestinal tissue cholesterol levels were not affected significantly by diet. Eight rats killed at day 0 had, on the average, lesser plasma cholesterol concentrations and greater rates of intestinal cholesterogenesis than rats fed experimental diets. Our results demonstrate that the hypocholesterolemic action of soy oil and soy protein fed to rats may be related to decreased intestinal cholesterogenesis. In addition, soy oil, a polyunsaturated fat caused a redistribution of cholesterol from plasma to liver.     

Relationships between fatty acid status of sow plasma and that of umbilical cord, plasma and tissues of newborn piglets when sows were fed on diets containing tuna oil or soyabean oil in late pregnancy

To investigate the relationships between maternal, umbilical cord and piglet fatty acid status, multiparous sows (six per diet) were fed on diets containing supplements (30 g/kg) of either soyabean oil or tuna oil for the last 21 d of pregnancy. The proportions of most fatty acids differed between diets: in particular, the tuna-oil-containing diet supplied more 22:6n-3 and less 18:2n-6 fatty acids than the soyabean-oil-containing diet. Maternal plasma fatty acid concentrations (mg/l) were greater than those in umbilical plasma and 20:4n-6 and 22:6n-3 fatty acids were present in higher proportions (g/100 g fatty acids) in umbilical than maternal plasma. Feeding tuna oil increased the proportionate amounts (g/100 g fatty acids) of total n-3 fatty acids (particularly 22:6n-3) in umbilical cord, plasma and piglet tissues compared with feeding soyabean oil: in contrast, the proportion of 20:4n-6 was decreased by feeding tuna oil. Changes in piglet fatty acid proportions as a result of oil feeding were not influenced by piglet weight. While proportions of the long-chain n-3 and n-6 polyunsaturated fatty acids in piglet liver, spleen and reproductive tract (ovaries plus uterus of the female, testes of the male) correlated well with those of umbilical plasma, those in brain and retina were poorly correlated. Therefore umbilical plasma cannot be used to predict the fatty acid status of piglet brain.     

Cod protein lowers the hepatic triglyceride secretion rate in rats

The objective of the present study was to determine the combined effects of cod protein and fish oil on the modulation of triglyceride metabolism in rats, and to evaluate their potential mechanisms of action. Plasma and hepatic lipid concentrations, triglyceride (TG) secretion rates and postheparin plasma lipoprotein lipase (LPL) activity were determined in rats fed for 28 d diets varying in both protein (200 g/kg) and lipid (140 g/kg) sources: 1) casein-menhaden oil, 2) casein-beef tallow, 3) cod protein-menhaden oil or 4) cod protein-beef tallow. Menhaden oil feeding diminished hepatic TG concentrations (P = 0.02), hepatic TG secretion rates (P = 0.003) and triglyceridemia (P = 0.02) compared with beef tallow. Hepatic TG concentrations (P = 0.05) and TG secretion rates (P = 0.04) were reduced in rats fed cod protein compared with those fed casein. The protein source did not exert an independent effect on triglyceridemia, whereas the combination of cod protein and menhaden oil resulted in 50% lower plasma TG compared with the casein-beef tallow mixture, whereas the combination of menhaden oil and casein did not significantly decrease triglyceridemia compared with casein-beef tallow. Menhaden oil (P = 0.005) and cod protein (P = 0.03) also lowered plasma cholesterol concentrations in comparison with beef tallow and casein, respectively. This was associated with a reduction in hepatic cholesterol concentrations when rats fed cod protein were compared with those fed casein (P = 0.006). No diet effect was observed on postheparin plasma LPL activity, but the activity of hepatic triglyceride lipase was reduced in rats fed menhaden oil compared with those fed beef tallow. These findings show that both cod protein and menhaden oil exert independent and beneficial effects on lipid metabolism in rats.     

Conjugated linoleic acid differentially modifies fatty acid composition in subcellular fractions of muscle and adipose tissue but not adiposity of postweaning pigs

This study examined the interaction between conjugated linoleic acid (CLA) and dietary fat type on the enrichment of subcellular fractions, the Delta(9) desaturase index and adiposity in pigs. Early weaned piglets (n = 6/group) were fed for 35 d diets supplemented with 15 g/100 g diet beef tallow or corn oil, or 12 g/100 g tallow or corn oil plus 3 g CLA. There were no effects of dietary fat or CLA on the mass of dissected skin, bone, muscle or adipose tissue of the 7th to 9th thoracic rib sections. Medial subcutaneous adipose tissue of pigs fed tallow had smaller adipocytes than that of pigs fed corn oil. The lateral subcutaneous site was unaffected by dietary fat type. Microsomes accumulated <50% the concentration of trans-10,cis-12, cis-11,trans-13, and cis-9,trans-11 CLA as membrane and nonmembrane fractions of adipose tissue and longissimus muscle. There was no evidence of preferential incorporation of any CLA isomer into any of the subcellular fractions. Addition of CLA to the diets reduced adipose tissue nonmembrane monounsaturated fatty acids (MUFA; g/100 g total fatty acids) by 15% in corn oil-fed pigs and by 19% in tallow-fed pigs. Total saturated fatty acids (SFA) were increased by CLA commensurately in this lipid fraction. This resulted in a reduced Delta(9) desaturase index [MUFA/(SFA + MUFA)] in the nonmembrane lipid fraction of pigs fed either the corn oil or tallow diets. Thus, in spite of marked effects on fatty acid composition and the Delta(9) desaturase index, CLA had no effect on adiposity in early weaned piglets fed high fat diets.     

花生油、茶油、牛油对大鼠脂质过氧化、膜磷脂脂肪酸组成及膜流动性的影响

用含11％花生油、茶油、牛油的饲料分别饲养SD大鼠，观察其血清和心、肝、脑丙二醛（MDA）、血清和肝超氧化物歧化酶（SOD）水平、生物膜磷脂脂肪酸组成及膜流动性的改变。结果发现：花生油组心线粒体及牛油组RBC膜磷脂脂肪酸含量与摄入脂肪酸呈正相关（r分别为0.6275和0.6967，P＜0.01）。喂饲花生油引起生物膜磷脂多不饱和脂肪酸含量增加，膜流动性增高，血清和肝SOD水平较低（分别为3.76±1.61mg／L、616±163μg／g），血清MDA较高（8.70±1.71μmol／L），提示脂质过氧化程度较高。喂饲茶油引起膜磷脂单不饱和脂肪酸含量增加，膜流动性和血清SOD（5.66±2.00mg／L）较高，血清及脑MDA较低（5.92±1.15μmol／L，2.45±0.44μmol／g），提示脂质过氧化程度较低。喂饲牛油引起膜磷脂饱和脂肪酸含量增加，膜流动性较低，血清及肝SOD较高（5.79±0.56mg／L，886±99μg／g），血清MDA较低（7.04±1.66μmol／L），脑MDA较高（3.96±1.68μmol／g），脂质过氧化程度介于花生油组与茶油组之间。