[The hypolipidemic and liver protective effect of (Z)-N-(2-hydroxyethyl) docos-13-enamide on hyperlipidemic golden hamsters]

This study is to observe preventive effect of (Z)-N-(2-hydroxyethyl) docos-13-enamide on hyperlipidemia and fatty liver of golden hamsters. Hyperlipidemic golden hamsters fed with high-fat diet was administered orally with (Z)-N-(2-hydroxyethyl) docos-13-enamide (10, 20 and 40 mg x kg(-1)) for 5 weeks. Levels of serum and hepatic lipid content, liver histology, hepatic MDA and SOD levels, serum ALT and AST levels were evaluated in golden hamsters. (Z)-N-(2-Hydroxyethyl) docos-13-enamide has a hypolipidemic effect, and could reduce hepatic lipid content, serum ALT and AST levels, hepatic MDA level, increase hepatic SOD activity. (Z)-N-(2-Hydroxyethyl) docos-13-enamide plays an important role in reducing serum lipid, restraining hepatic fatty deposition and protecting liver to get rid of peroxidation injury of hyperlipidemic golden hamsters. The exact lipid-lowering mechanism of (Z)-N-(2-hydroxyethyl) docos-13-enamide needs further investigation.

Short Communication: Eicosatrienoic Acid and Docosatrienoic Acid Do Not Promote Vaccenic Acid Accumulation in Mixed Ruminal Cultures

Previous research found that docosahexaenoic acid (C22:6n-3) was a component of fish oil that promotes trans-C18:1 accumulation in ruminal cultures when incubated with linoleic acid. The objective of this study was to determine if eicosatrienoic acid (C20:3n-3) and docosatrienoic acid (C22:3n-3), n-3 fatty acids in fish oil, promote accumulation of trans-C18:1, vaccenic acid (VA) in particular, using cultures of mixed ruminal microorganisms. Treatments consisted of control, control plus 5 mg of C20:3n-3 (ETA), control plus 5 mg of C22:3n-3 (DTA), control plus 15 mg of linoleic acid (LA), control plus 5 mg of C20:3n-3 and 15 mg of linoleic acid (ETALA), and control plus 5 mg of C22:3n-3 and 15 mg of linoleic acid (DTALA). Treatments were incubated in triplicate in 125-mL flasks, and 5 mL of culture contents was taken at 0 and 24 h for fatty acid analysis by gas-liquid chromatography. After 24 h of incubation, the concentrations of trans-C18:1 (0.87, 0.88, and 0.99 mg/culture), and VA (0.52, 0.56, and 0.62 mg/culture) were similar for the control, ETA, and DTA cultures, respectively. The concentrations of trans-C18:1 (5.51, 5.41, and 5.36 mg/culture), and VA (4.78, 4.62, and 4.59 mg/culture) were also similar between LA, ETALA, and DTALA cultures, respectively. These data suggest that C20:3n-3 and C22:3n-3 are not the active components in fish oil that promote VA accumulation when incubated with linoleic acid.

Increased cytotoxicity of ionizing radiation in combination with membrane-targeted apoptosis modulators involves downregulation of protein kinase B/Akt-mediated survival-signaling

BACKGROUND AND PURPOSE

The membrane-targeted apoptosis modulators erucylphosphocholine (ErPC) and erucylphosphohomocholine (ErPC3) induce apoptosis in highly apoptosis resistant malignant glioma cell lines and enhance radiation-induced cell death and eradication of clonogenic tumor cells in vitro. Aim of the present study was to elucidate molecular mechanisms of combined action.

MATERIALS AND METHODS

Induction of apoptosis was evaluated by determination of nuclear morphology (fluorescence microscopy), alteration of mitochondrial function and caspase-activation (flow cytometry, Western blot). Activity of protein kinase B (PKB/Akt) and key downstream effectors involved in apoptosis regulation was verified by Western blot analysis using activation-specific antibodies.

RESULTS

Increased cytotoxicity of the combination was linked to a more efficient activation of the intrinsic apoptosis pathway with increased damage of the mitochondria and caspase-activation. Moreover, activity of the survival kinase PKB/Akt was downregulated upon treatment with ErPC/ErPC3 alone or in combination with ionizing radiation. Inhibition of PKB/Akt was associated with decreased phosphorylation and thus activation of the pro-apoptotic Bcl-2 protein Bad as well as dephosphorylation of the transcription factor FOXO3A (FKHRL1) that may be responsible for the observed increased expression of the pro-apoptotic Bcl-2 protein Bim.

CONCLUSIONS

Our data suggest a role for inhibition of PKB/Akt-mediated anti-apoptotic signaling in increased efficacy of the combination.

The effect of Lorenzo's oil on oxidative stress in X-linked adrenoleukodystrophy

X-linked adrenoleukodystrophy (X-ALD) is a peroxisomal disorder biochemically characterized by the accumulation of very long chain fatty acids (VLCFA), particularly hexacosanoic acid (C(26:0)) and tetracosanoic acid (C(24:0)), in tissues and biological fluids. Although patients affected by this disorder predominantly present central and peripheral demyelination as well as adrenal insufficiency, the mechanisms underlying the brain damage in X-ALD are poorly known. The current treatment of X-ALD with glyceroltrioleate (C(18:1))/glyceroltrierucate (C(22:1)) (Lorenzo's oil, LO) combined with a VLCFA-poor diet normalizes VLCFA concentrations, but the neurological symptoms persist or even progress in symptomatic patients. Considering that free radical generation is involved in various neurodegenerative disorders and that in a previous study we showed evidence that oxidative stress is probably involved in the pathophysiology of X-ALD symptomatic patients, in the present study we evaluated various oxidative stress parameters, namely thiobarbituric acid reactive species (TBA-RS) and total antioxidant reactivity (TAR) in plasma, as well as the activities of the antioxidant enzymes catalase (CAT), superoxide dismutase (SOD) and glutathione peroxidase (GPx) in erythrocytes from symptomatic and asymptomatic X-ALD patients and verified whether LO treatment and a VLCFA restricted diet could change these parameters. We observed a significant increase of plasma TBA-RS in symptomatic and asymptomatic X-ALD patients, reflecting induction of lipid peroxidation even before the disease was manifested. In addition, LO treatment did not alter this profile. Furthermore, plasma TAR measurement of X-ALD patients was not different from that of controls. Similarly, the antioxidant enzyme activities CAT, SOD and GPx were not altered in erythrocyte from X-ALD patients as compared to controls. We also examined the in vitro effects of hexacosanoic acid (C(26:0)) and tetracosanoic acid (C(24:0)) alone or combined with oleic (C(18:1))/erucic (C(22:1)) acids on various oxidative stress parameters in cerebral cortex of young rats, namely chemiluminescence, TBA-RS, TAR, CAT, SOD and GPx in order to investigate whether those fatty acids were able to induce oxidative stress. We found that there was a significant increase of TBARS and of chemiluminescence in rat cerebral cortex exposed to C(26:0)/C(24:0), and that the addition of C(18:1)and C(22:1) to the assays did not prevent this effect. Furthermore, TAR measurement was not altered by C(26:0) and C(24:0) acids in rat cerebral cortex. Taken together, our results indicate that lipid peroxidation occurs in X-ALD and that LO treatment does not attenuate or prevent free radical generation in these patients. Therefore, it may be presumed that antioxidants should be considered as an adjuvant therapy for X-ALD patients.

Antifungal Activities of Four Fatty Acids against Plant Pathogenic Fungi

The effect of the fatty acids linolenic acid, linoleic acid, erucic acid and oleic acid on the growth of the plant pathogenic fungi Rhizoctonia solani, Pythium ultimum, Pyrenophora avenae and Crinipellis perniciosa were examined in in vitro studies. Linolenic and linoleic acids exhibited activity against all of the fungi. However, whereas linolenic acid reduced mycelial growth of R. solani and C. perniciosa at 100 microM, the concentration had to be increased to 1000 microM before any effect on mycelial growth of P. ultimum and P. avenae was observed. Linoleic acid only reduced mycelial growth of R. solani, P. ultimum and P. avenae at 1000 microM, but led to a significant reduction in growth of C. perniciosa at 100 microM. In contrast, oleic acid had no significant effect on growth of R. solani or P. avenae, but gave significant reductions in mycelial growth of P. ultimum at 100 microM and reduced growth of C. perniciosa significantly at 1000 microM. All of the fatty acids reduced biomass production by all of the fungi significantly in liquid culture when added to the media at 100 microM. Erucic acid had no effect on fungal growth at any concentration examined. The antifungal activities exhibited by linolenic, linoleic and oleic acids may be useful in the search for alternative approaches to controlling important plant pathogens, such as those examined in this study.

Erucamide as a modulator of water balance: new function of a fatty acid amide

The aim of this study was to isolate a compound from blood plasma that inhibits intestinal diarrhea and that appears also to regulate fluid volumes in other organs. The isolation procedure included lipid extraction, liquid chromatography, and gas chromatography. The active substance was identified by mass spectrometry as erucamide (MW 337 Da). The biological effect was reproduced with authentic erucamide. Erucamide is a fatty acid amide, such as oleamide and anandamide, which modulate other physiological functions in a receptor-mediated fashion. All the exact biological functions of erucamide are as yet to be defined, but it is already known to stimulate angiogenesis. Erucamide concentrations were determined in body organs from the pig. The blood plasma level was 3 ng/g, and those of lung, kidney, liver, and brain were 12, 2.5, 1.0, and 0.5 ng/g, respectively. Erucamide was below detection level in the intestine, but is known to be present in the cerebrospinal fluid. In the rat, 3H-erucamide was accumulated in vivo into lung, liver, and spleen and in vitro into lung, liver, brain, and intestine. The in vitro uptake was time and temperature dependent, but not saturable.

Preventing neurodegeneration in the Drosophila mutant bubblegum

The Drosophila melanogaster recessive mutant bubblegum (bgm) exhibits adult neurodegeneration, with marked dilation of photoreceptor axons. The bubblegum mutant shows elevated levels of very long chain fatty acids (VLCFAs), as seen in the human disease adrenoleukodystrophy (ALD). In ALD, the excess can be lowered by dietary treatment with "Lorenzo's oil," a mixture of unsaturated fatty acids. Feeding the fly mutant one of the components, glyceryl trioleate oil, blocked the accumulation of excess VLCFAs as well as development of the pathology. Mutant flies thus provide a potential model system for studying mechanisms of neurodegenerative disease and screening drugs for treatment.

Effects of feeding Lunaria oil rich in nervonic and erucic acids on the fatty acid compositions of sphingomyelins from erythrocytes, liver, and brain of the quaking mouse mutant

Feeding an oil from Lunaria biennis rich in 22:1n-9 and 24:1n-9 to homozygous quaking (qk.qk) mice caused a large increase in the percentage of 24:1n-9 and corresponding decreases in the percentage of 24:0 and 22:0 in sphingomyelins from liver, erythrocytes, and milk. Brain sphingomyelin from 2-wk-old qk.qk pups born to qk.qk mothers maintained on the Lunaria oil had essentially normal percentage of 24:1n-9 and 18:0, in contrast to pups born to mothers maintained on a control oil rich in 18:1n-9 whose brain sphingomyelin had a markedly reduced percentage of 24:1n-9 and an increased percentage of 18:0. After 2 wk and up to and beyond weaning, the qk.qk pups from Lunaria-fed mothers weaned on to the Lunaria diet had a markedly decreased percentage of 24:1n-9 in their brain sphingomyelin, accompanied by an increased percentage of 18:0, as compared to heterozygous quaking mice. However, the percentage of 24:1n-9 in brain sphingomyelin in qk.qk pups weaned on to the Lunaria diet continued throughout this period (2-8 wk postbirth) to be significantly higher than in qk.qk pups weaned on to the control diet. We conclude that dietary 24:1n-9 influences the fatty acid composition of brain sphingomyelin in qk.qk mice, but only via the mother in pre- or early postnatal animals. We further consider that the dietary effects may be elicited mainly in the sphingomyelin of nonmyelinated brain cells, and that the nervonic acid in myelin sphingomyelin may be formed mainly by chain elongation in oligodendrocytes from shorter chain fatty acid precursors.

Monounsaturated oils do not all have the same effect on plasma cholesterol

Evidence assembled here indicates that when olive oil forms a major part of dietary fat in controlled human experiments, total and LDL-cholesterols are somewhat higher than when the same amount of fat is one of the modern predominantly monounsaturated oils: low erucic rapeseed or high oleic sunflower oil. Oils rich in monounsaturated fatty acids thus do not all have the same effect on plasma cholesterol. This phenomenon is explicable by consideration of the content of other fatty acids and the non-saponifiable fractions of the different monounsaturated oils. It helps to explain the discrepancy that has existed between the classic experiments (using olive oil), which found monounsaturated oils 'neutral', and some of the more recent experiments which found them more cholesterol-lowering than carbohydrates. Four published meta-analyses are reviewed. The three which included most of the published experiments show that monounsaturated fatty acids (MUFA) have less plasma cholesterol-lowering effect than polyunsaturated fatty acids.

Effects of Lorenzo's Oil on peroxisomes in healthy mice

We investigated peroxisomal alterations in mice treated with different doses of Lorenzo's Oil (a therapy for X-linked adrenoleukodystrophy patients) for up to 100 days. Hepatic erucic acid levels were already significantly increased 2.2-fold and 2.6-fold in mice treated with 10% and 20% Lorenzo's Oil for 21 days, respectively. No lipidosis was found in liver, myocardium and kidney of any of the treated mice. While hepatic catalase, lauroyl-CoA oxidase and glycolate oxidase, and renal catalase activities were not induced by either diet, myocardial catalase activity was increased in most groups. This suggests that the mechanism of the effect of Lorenzo's Oil in X-linked adrenoleukodystrophy patients may not be a direct effect on the peroxisomes.

Implication of hydrogen peroxide generation and apoptosis in the neoplastic transformation of mouse fibroblasts overexpressing peroxisomal fatty acyl-CoA oxidase

Receptor-mediated overexpression of H2O2-generating peroxisomal fatty acyl-CoA oxidase (AOX) has been implicated in peroxisome proliferator-induced hepatocarcinogenesis. To investigate the role of rat AOX generated H2O2 in transformation, we overexpressed this enzyme in a non-tumorigenic mouse fibroblast cell line (LM tk-) under control of mouse urinary protein promoter. The clones overexpressing rat peroxisomal AOX, when exposed to a fatty acid substrate (100 microM linoleic acid) for 6 to 96 h, demonstrated > 10-fold increase of intracellular H2O2. This increase in H2O2 concentration was associated with increased apoptosis as evidenced by DNA fragmentation, in situ terminal deoxynucleotide transferase dUTP nick end-labeling (TUNEL). These cell lines stably expressing AOX formed colonies in soft agar in proportion to the duration (1-7 weeks) of exposure to a fatty acid substrate (100 microM linoleic acid, erucic acid or nervonic acid) and these transformants developed into fibrosarcomas when injected in athymic nude mice. These results suggest that H2O2 generated by AOX overexpression in immortalized fibroblasts leads to apoptosis, and the extent and duration of H2O2 and possibly other DNA damaging reactive oxygen species generated by the overexpression of peroxisomal AOX can influence apoptosis and neoplastic transformation.

Myocardial fatty acid pattern in rats fed on an erucic acid enriched diet

Individual lipid classes and their fatty acid pattern in myocardium of rats fed on a diet containing 10% erucic acid ethyl ester (cis-13-docosenoic acid ethyl ester) were investigated and compared to rats fed on a normal diet. Two groups of rats were treated for 10 consecutive days with the erucic acid ethyl ester diet and the standard diet, respectively. After extracting total lipids from the myocardium of the rats, the individual lipid classes and the percentage of fatty acids in phospholipids, free fatty acids, diglycerides and triglycerides were measured. The data obtained demonstrate that the erucic acid ethyl ester diet induces a marked increase in free fatty acids and in triglycerides and marked differences in fatty acid pattern in triglycerides, free fatty acids and diglycerides, but only marginal differences in phospholipids, which seem to be carefully preserved as fundamental components of cell and mitochondria membranes.

Erucic acid and erucic acid anilide-induced oxidative burst in human polymorphonuclear leukocytes

Human polymorphonuclear leukocytes (PMNL) were exposed to erucic acid or erucic acid anilide to explore their effects on the production of reactive oxygen species (ROS) and the levels of free intracellular calcium. The compounds did not change the levels of intracellular calcium, but both dose-dependently induced respiratory burst in PMNL. Maximal production of ROS by erucic acid exceeded that induced by its anilide 13-fold. A protein kinase C inhibitor, Ro 31-8220, completely inhibited erucic acid and erucic acid anilide-induced production of ROS. Neither erucic acid nor erucic acid anilide modified FMLP-induced production of ROS. However, erucic acid (500 microM) amplified 5 nM PMA-induced ROS production 1.8-fold, but did not have this effect at a lower PMA concentration. On the contrary, erucic acid anilide inhibited PMA-induced oxidative burst, and shifted the peak ROS production induced by PMA to a later time-point. The present results show that aniline moiety modifies the effects of erucic acid on the activation of PMNL, and suggest that both erucic acid and erucic acid anilide may activate PMNL through a protein kinase C-dependent mechanism.

Proliferation of myocardial peroxisomes caused by several agents and conditions

In view of considerable gaps in our knowledge of myocardial peroxisomes. the aim of the present study is, on the basis of extensive electron-microscopic investigations, to provide reliable results on the inducibility of a proliferation (increase in the number) of these organelles in rodents' heart by several agents and conditions. As far as possible, we compared the response of heart and liver peroxisomes. Morphometric investigations were performed to assess the effectiveness of the hypolipidemic agent HL 41, erucic acid, ethanol, nifedipine, chlorpromazine, two cardiotonic drugs, isoprenaline, adriamycin, and physical exercise. The study also included spontaneously hypertensive rats (SHR). A further objective was to determine synergistic or additive effects that might occur when two or three peroxisome-proliferating stimuli act simultaneously. In every case we observed a clear peroxisome proliferation, which was found to increase by between 10 and 97% under the influence of an additional inducer. The observed increase in peroxisome number ranged from almost 200% to nearly 400%. Our results suggest that very different agents and conditions can induce myocardial peroxisome proliferation when they lead to metabolic alterations associated with an increased need for a peroxisomal beta-oxidation of fatty acids as an energy source and/or for preventing toxic effects. Regulatory mechanisms of these adaptive processes are apparently also present in the heart via peroxisome proliferator-activated receptors (PPARs) and their activation by fatty acids, which can also stimulate the PPARs gene expression. The assumption that stimulated catalase gene expression might be responsible for the induction of peroxisome proliferation as a cellular response to an extraperoxisomal oxidative stress situation (isoprenaline, adriamycin, or physical exercise) poses some critical questions. These questions pertain especially to: (a) quantitative aspects with regard to the possible effectiveness of an increase in catalase activity by two-, three-, or four-fold enhanced peroxisome numbers; (b) the role of cytoplasmic catalase; (c) the existence and importance of a myocardial mitochondrial catalase; and (d) the co-operation between the two H2O2-destroying enzymes catalase and glutathione peroxidase.

Long chain polyunsaturated fatty acids and bovine luteal cell function

Experiments were conducted to determine the effects of exogenous polyunsaturated fatty acids (PUFA) on the production of progesterone and prostanoids by dispersed bovine luteal cells and to characterize endogenous luteal fatty acids throughout the estrous cycle. The addition of eicosapentaenoic acid (20:5, n3) resulted in a dose-dependent reduction of progesterone production and an increase in production of prostaglandin (PG) F2 alpha (PGF2 alpha) (p < 0.05). Nordihydroguaiaretic acid abolished the inhibitory effects of 20:5, n3 on progesterone production, while indomethacin did not alter these effects. The addition of 10 micrograms docosahexaenoic acid (22:6, n3) resulted in a suppression of progesterone synthesis (p < 0.05) and reduced PGF2 alpha synthesis. The addition of 0.1, 1, and 10 micrograms docosatetraenoic acid (22:4, n6) inhibited basal progesterone production, whereas only the highest dose decreased LH-stimulated synthesis of progesterone. The addition of 22:4, n6 resulted in increased PGF2 alpha synthesis (p < 0.05) and in lowered synthesis of prostacyclin (p < 0.05). Variations in luteal fatty acids were confirmed by an experiment in which endogenous fatty acids were characterized throughout the estrous cycle. The percentages and ratios of PUFA were altered throughout the estrous cycle. In summary, PUFA have potent inhibitory effects on the production of progesterone and PGI2 in vitro and may play a role in bovine luteal cell function by mechanisms yet to be determined.

Effect of erucic acid on platelets in patients with adrenoleukodystrophy

In a clinical trial for the management of adrenoleukodystrophy, we analyzed the effect of erucic acid (a component of Lorenzo's oil) on platelet number, fatty acid composition, and function. Analysis of variance was performed to compare platelet counts before starting treatment with Lorenzo's oil and at 6 and 12 months. We measured platelet fatty acid composition in subjects and control patients and correlated these values with their platelet counts using discriminant analysis. After 6 months, the mean platelet count decreased from 247,000/mm3 to 169,000/mm3 (+/- 1 standard deviation 58,000,n =39), P < 0.0001 compared to 18 subjects on a control diet having a mean baseline platelet count of 259,000/mm3 (+/- 1 standard deviation 67,000, n = 19) and at 6 months 267,000/mm3 (+/- 1 standard deviation 71,000). We found at P < 0.05 that the platelet counts showed a strong inverse relationship with erucic acid levels and other omega 9 fatty acids that form from the administration of the erucic acid component of Lorenzo's oil. Morphologic and platelet sizing measurements suggest that the physical properties of platelets may also be affected by erucic acid. Our studies show that the ingestion of erucic acid affects platelet biology. This indicates that platelet counts and properties are influenced by monounsaturated fatty acids, in addition to the well-known effects of polyunsaturated fatty acids. In areas of the world where erucic acid is widely ingested, the biology of platelets in these populations may be affected.

Extinction of peroxisomal functions in hepatoma cell-fibroblast hybrids

Although peroxisomes are ubiquitous, differences in the number of organelles and in the expression of associated metabolic activities are observed, depending on the cell type. To investigate the control of peroxisomal activity in connection with cell differentiation, we constructed hybrids between two types of cells whose histogenetic origins dictate significant differences in peroxisomal activities: hepatoma cells and fibroblasts, with high and low expression, respectively, of peroxisomal functions. In these hybrids, extinction of the elevated activities that characterize liver cells is observed, in parallel with the well-documented extinction of differentiated functions. This suggests the existence in fibroblasts of a negative trans-acting regulation.

Enhancement of neovascularization in regenerating skeletal muscle by the sustained release of erucamide from a polymer matrix

The angiogenic agent erucamide (cis-13-docosenamide), incorporated into a polymeric biomaterial (Elvax 40P, a copolymer of ethylene and vinyl acetate), was used to determine whether angiogenesis can be increased in the regenerating skeletal muscle, and whether the enhanced revascularization improves the new muscle formation. The angiogenic nature of this lipid was confirmed in a rat cornea-micropocket assay, prior to insertion of small strips of the polymer containing either 3 micrograms, 300 micrograms erucamide or only polymer as a control into the mid-region of crush-injured tibialis anterior (TA) muscles of forty-five adult male BALB/c mice. All TA muscles were sampled ten days after injury and analyzed morphometrically. Statistical analyses of the mean blood vessel area density in lesions from twelve perfused TA muscles (three from each of the erucamide-treated or control group), revealed a dose-dependent angiogenic effect of erucamide: a dosage of 3 micrograms increased mean blood vessel area density to 5.1% compared to 2.0% in controls, due to numerous large caliber, thin-walled vessels, whereas the mean vessel area density in both the 30-micrograms (3.5%) and 300-micrograms (1.5%) doses were similar to controls. However, at all three doses tested, erucamide did not significantly alter the degree of new muscle formation, connective tissue deposition, or removal of necrotic debris.

Very long-chain fatty acids change the ethanol tolerance of Drosophila melanogaster larvae

This research tested the hypothesis that long-chain saturated fatty acids increase the order of cell membranes of an organism and minimize the detrimental fluidizing effects of ethanol. Unsaturated fatty acids increase membrane fluidity and are unlikely to increase the ethanol tolerance of the organism. Both a fatty acid-free medium and media supplemented with very long-chain fatty acids (20 or more carbons) were fed to wild-type larvae of Drosophila melanogaster; larvae were then transferred to media with or without ethanol to test for effects of the fatty acids on ethanol tolerance. Ethanol decreased the percent of larvae to pupate, and lengthened larval development time. However, the percentage of pupae to reach the adult stage and the weight of adult males increased when the larvae were fed ethanol. The very long-chain, unsaturated fatty acids, arachidonic acid [20:4(n-6)] and docosatetraenoic acid [22:4(n-6)], were associated with increased larval mortality when administered in a medium supplemented with ethanol. Arachidic acid (20:0) increased the percentage of larvae to pupate under ethanol stress, decreased the development time and increased the adult weight in the presence and absence of ethanol. Behenic acid (22:0) was not effectively incorporated into phospholipids and had little effect on growth traits. Thus, the experimental results were consistent with the hypothesis.

Brain, liver, and adipose tissue erucic and very long chain fatty acid levels in adrenoleukodystrophy patients treated with glyceryl trierucate and trioleate oils (Lorenzo's oil)

Brain, liver, and adipose lipids were studied in the postmortem tissues of four adrenoleukodystrophy patients who had been treated with a mixture of glyceryl trioleate and trierucate oils ("Lorenzo's Oil") and compared to 7 untreated ALD patients and 3 controls. The dietary therapy appeared to reduce the levels of saturated very long chain fatty acids in the plasma, adipose tissue and liver; in the brain they were reduced in only one of the four patients. While substantial amounts of erucic acid were present in some of the tissues even 12 months after therapy had been discontinued, the levels in brain did not exceed those in controls at any time. The failure of erucic acid to enter the brain in significant quantity may be a factor in the disappointing results of dietary therapy for adrenoleukodystrophy.

Resistance to erucic acid as a selectable marker for peroxisomal activity: isolation of revertants of an infantile Refsum disease cell line

A system based on the ability of cells to oxidize very long-chain fatty acids (VLCFA) was developed to select in vitro normal human fibroblasts from fibroblasts of patients suffering from peroxisomal disorders with multienzymatic deficiencies: Zellweger syndrome, neonatal adrenoleukodystrophy, infantile Refsum disease (IRD). Cells treated with various concentrations of erucic acid (C22:1 n-9) revealed an enhanced toxicity of this fatty acid for the fibroblasts of patients compared with normal cells. This differential toxicity is correlated with variable accumulations of C22:1 n-9 and the absence of beta-oxidation products in the mutants. Revertants from clonal IRD cell lines were isolated in the selective medium at frequencies ranging from 3 x 10(-7) to 4 x 10(-6) depending on the line. After six weeks of growth in the absence of selective pressure, the variants exhibited a resistance level to C22:1 n-9 identical to that of normal cells. Furthermore, beta-oxidation of VLCFA is re-established in these selected cells as well as dihydroxyacetone phosphate acyltransferase activity. Immunoblot experiments also demonstrated a restored pattern of acyl-CoA oxidase molecular forms. Last, immunofluorescence studies revealed the presence of cytoplasmic structures that were absent in the original IRD cells. Thus, both the deficiencies in metabolic pathways and paucity of the organelle are at least partially corrected in the selected clones.

Biochemical and toxicological studies on the effect of high and low erucic acid rapeseed oil on rats

Rats were fed on diets containing rapeseed oil, either containing low or high erucic acid content as well as the hydrogenated ones for 6 weeks. Body weight gain, biochemical and pathological parameters were investigated. The data showed high body weight gain for rats fed diets containing low erucic rape oil (LERo) compared with those fed either the high erucic rape oil (HERo), the hydrogenated or the partially hydrogenated oil diets. All rats showed non significant changes for total lipids, total cholesterol, GPT and GOT, except the partially hydrogenated rape oil diet which showed significant decrease for total cholesterol. Alkaline phosphatase however showed a significant decrease, while plasma phospholipids showed significant increase in rats fed on the hydrogenated oil diet. Triglycerides indicated non significant increase except in the group that received low erucic rape oil diet. Histopathological study showed changes in all tissues examined (liver and kidney).

Unique metabolites of eicosapentaenoic acid interfere with corpus luteum function in the ewe

Experiments were conducted to determine the in vivo and in vitro effects of metabolites of eicosapentaenoic acid on ovine luteal function. Injection of 750 micrograms methyl eicosapentaenoic acid (EPA) or methyl 12(R),13(S)-dihydroxyeicosapentaenoic acid (12,13-diHEPE) into the ovarian artery of ewes on day 10 of the estrous cycle caused a reduction in serum concentrations of progesterone by 48 h posttreatment compared with levels of this steroid in arachidic acid-treated controls (p < 0.005). Although mean serum concentrations of progesterone in methyl EPA-treated ewes during the remainder of the cycle did not differ from those in control ewes, levels in methyl 12,13-diHEPE-treated ewes remained significantly suppressed. Duration of the estrous cycle did not differ among treatment groups (p > 0.05), but more of the methyl 12,13-diHEPE-treated animals (3/5) had exhibited estrus within 3 days after injection than methyl EPA-treated (1/5) or control ewes (0/5). Slices of corpus luteum removed from ewes on day 10 of the estrous cycle were incubated with arachidic acid (controls), 12,13-diHEPE or docosatetraenoic acid (DTA). Regardless of fatty acid treatment, all tissues retained the ability to produce basal levels of progesterone during subsequent incubation. Luteal slices previously exposed to arachidic acid or DTA exhibited an increase in progesterone production in response to subsequent treatment with LH (p < 0.05). In contrast, luteal slices incubated with 12,13-diHEPE did not respond to LH with a significant increase in production of this steroid above that observed in controls. All tissues displayed a marked increase in progesterone synthesis upon treatment with 8-Br-cAMP relative to incubation of tissue alone (p < 0.001). Subcellular distribution of [14C]-12,13-diHEPE in luteal cells after incubation revealed that the majority of the fatty acid was associated with the plasma membrane. These data suggest that metabolites of eicosapentaenoic acid with hydroxyl groups on adjacent carbon atoms interfere with luteal function in the ewe, perhaps in part by altering luteal response to LH.

Priming effect of adrenic acid (22:4(n-6)) on tissue factor activity expressed by thrombin-stimulated endothelial cells

Tissue factor (TF) which initiates clotting process can be expressed by stimulated endothelial cells (EC). TF is an apolipoprotein requiring an association with phospholipids (PL) in order to become active. Also PL constitute an important storage pool of polyunsaturated fatty acids (PUFAs) in EC which can be modulated by diet or cell medium supplementation. In order to test the effect of such manipulation upon TF activity, we have pre-enriched human EC cultures with different fatty acids of nutritional interest. TF was evaluated after 4 h of thrombin stimulation by using a chromogenic method. Without additional stimulating agents, these acids have no effect on the basal level of TF. Eicosapentaenoic and docosapentaenoic acids appeared to be ineffective at the stimulated TF level. Only adrenic acid (22:4(n-6)) has been found to significantly enhance TF activity of thrombin-stimulated endothelial cells. Other TF inducers were also tested after 22:4(n-6) enrichment. An increase tendency of TF expression was found only with tumor necrosis factor, whereas interleukin-1 beta, lipopolysaccharide and especially phorbol myristate acetate stimulations were not significantly modified. The priming effect of adrenic acid on thrombin stimulated TF expression might involve alterations of signal transduction pathways rather than modifications of apolipoprotein III environment. Adrenic acid, which is a prostacyclin inhibitor, appears to be potential prothrombotic agent.

Effect of prolonged treatment with propionyl-L-carnitine on erucic acid-induced myocardial dysfunction in rats

The aim of this study was to evaluate the ability of propionyl-L-carnitine to prevent cardiac damage induced by erucic acid. Rats were fed for 10 days with normal or 10% erucic acid-enriched diets with or without propionyl-L-carnitine intraperitoneally injected, (1 mM/kg daily, for 10 days). The erucic acid diet produced increases in triglycerides (from 5.6 to 12.4 mg/gww, P less than 0.01), and free fatty acids (from 2.0 to 5.1 mg/gww, P less than 0.01), but no changes in phospholipids. When the hearts were perfused aerobically with an isovolumic preparation there was no difference in mechanical activity. On the contrary, when pressure-volume curves were determined, the pressure developed by hearts from the erucic acid-treated rats were reduced. Independent of diet, propionyl-L-carnitine treatment always produced positive inotropy. This was concomitant with improved mitochondrial respiration (RCI 5.1 vs 9.3, P less than 0.01), higher tissue ATP content (10.3 vs 18.4 mumol/gdw P less than 0.01) and reduction of triglycerides (12.4 vs 8.0 mg/gww, P less than 0.01). These data suggest that propionyl-L-carnitine, when given chronically, is able to prevent erucic acid-induced cardiotoxicity, probably by reducing triglyceride accumulation and improving energy metabolism.

bFGF enhances the development of the collateral circulation after acute arterial occlusion

An adequate collateral circulation is crucial to tissue survival subsequent to proximal major arterial occlusion. The precise mechanism of collateral blood vessel development and the biochemical mediators involved in this process are unknown. To evaluate the influence of a number of agents on the development of the collateral circulation, we developed a rat model of severe hind limb ischaemia. The recovery of blood flow after acute arterial occlusion was increased by exogenous basic fibroblast growth factor and heparin, and decreased by protamine. Erucamide (cis-13-docosenamide), an angiogenic lipid, had no effect on collateral blood flow. These results indicate that basic fibroblast growth factor and heparin are potential therapeutic agents in the treatment of peripheral vascular disease.

Myocardial changes in newborn piglets fed sow milk or milk replacer diets containing different levels of erucic acid

This study was undertaken to determine whether the neonate was more susceptible to the effects of dietary erucic acid (22:1n-9) than the adult. Newborn piglets were used to assess the safety of different levels of 22:1n-9 on lipid and histological changes in the heart. Newborn piglets showed no myocardial lipidosis as assessed by oil red 0 staining, but lipidosis appeared with consumption of sow milk and disappeared by seven days of age. Milk replacer diets containing soybean oil, or rapeseed oil mixtures with up to 5% 22:1n-9 in the oil, or 1.25% in the diet, gave trace myocardial lipidosis. Rapeseed oil mixtures with 7 to 42.9% 22:1n-9 showed definite myocardial lipidosis in newborn piglets, which correlated to dietary 22:1n-9, showing a maximum after one week on diet. The severity of the lipidosis was greater than observed previously with weaned pigs. There were no significant differences among diets in cardiac lipid classes except for triacylglycerol (TAG), which increased in piglets fed a rapeseed oil with 42.9% 22:1n-9. TAG showed the highest incorporation of 22:1n-9, the concentration of 22:1n-9 in TAG was similar to that present in the dietary oil. Among the cardiac phospholipids, sphingomyelin and phosphatidylserine had the highest, and diphosphatidylglycerol (DPG) the lowest level of 22:1n-9. The low content of 22:1n-9 in DPG of newborn piglets is not observed in weaned pigs and rats fed high erucic acid rapeseed oil. The relative concentration of saturated fatty acids was lowered in all cardiac phospholipids of piglets fed rapeseed oils, possibly due to the low content of saturated fatty acids in rapeseed oils. The results suggest that piglets fed up to 750 mg 22:1n-9/kg body weight/day showed no adverse nutritional or cardiac effects.

Isolation of fatty acid amide as an angiogenic principle from bovine mesentery

Erucamide (13-docosenamide) was found to be the major bovine mesentery angiogenic lipid as assessed by chorioallantoic membrane (CAM) assay. Two micrograms of this lipid caused angiogenesis in the assay. Angiogenic activity of this naturally occurring lipid was also found by rat corneal micropocket and mouse dorsal air-sac assays. Specificity of the chemical structure which elicited activity was low, however. The mechanism of angiogenic activity is unknown and this lipid does not promote proliferation of endothelial cells or induce inflammatory effects.

Docosatetraenoic acid in endothelial cells: formation, retroconversion to arachidonic acid, and effect on prostacyclin production

Cultured bovine aortic endothelial cells convert arachidonic acid to docosatetraenoic acid and also take up docosatetraenoic acid from the extracellular fluid. After a 24-h incubation with biosynthetically prepared [3H]docosatetraenoic acid, about 20% of the cellular fatty acid radioactivity was converted to arachidonic acid. Furthermore, in pulse-chase experiments, the decrease in phospholipid docosatetraenoic acid content was accompanied by an increase in arachidonic acid, providing additional evidence for retroconversion. These findings suggest that one possible function of docosatetraenoic acid in endothelial cells is to serve as a source of arachidonic acid. The endothelial cells can release docosatetraenoic acid when they are stimulated with ionophore A23187, but they do not form appreciable amounts of eicosanoids from docosatetraenoic acid. Enrichment of the endothelial cells with docosatetraenoic acid reduced their capacity to produce prostacyclin (PGI2) in response to ionophore A23187. This may be related to the fact that docosatetraenoic acid enrichment caused a 40% reduction in the arachidonic acid content of the inositol phosphoglycerides. In addition, less prostacyclin was formed when the enriched cells were incubated with arachidonic acid, suggesting that docosatetraenoic acid also may act as an inhibitor of prostaglandin synthesis in endothelial cells.

Effect of dietary erucic acid on the utilization of oils or fats by growing chicks

Free erucic acid (EA) (C22:1) was blended with Cambra oil (CBO), sunflower oil (SFO), and animal lard (AL) at 45% (w/w). Six experimental diets were formulated to incorporate either CBO, SFO, AL, or EA blended oils (CBO plus EA, SFO plus EA), or fats (AL plus EA) at 8%. The adverse effects of dietary EA blended with various types of oils or fats were studied by feeding 180-day-old White Leghorn cockerels for a 4-week growing period. In general, adverse effects of dietary EA were clearly reflected in feed consumption, chick growth, and apparent digestibility of total lipids as well as individual fatty acids. The AL plus EA produced significantly greater adverse effects than with SFO plus EA. The diet containing CBO (low EA, 5.1% rapeseed oil) depressed chick growth and feed consumption, but no additive effect was manifested when EA was supplemented. The fatty acid profile of dietary SFO appears to counteract the metabolic burden of excess dietary EA. It was concluded that high linoleic acid content in SFO may be the major contributing factor in alleviating the adverse response to EA.

Evidence for a negative modulating effect of erucic acid on the peroxisomal beta-oxidation enzyme system and biogenesis in rat liver

In male rats fed a 30 cal% high-erucic acid (22:1 (13) (cis] rapeseed oil diet for 4 weeks a transient, small increase in peroxisomal beta-oxidation was observed in liver homogenates and isolated peroxisomes after approximately 1 week. Morphometric analysis revealed a progressive decrease in the average size of the liver peroxisomes (by approx. 20%), as well as their volume fraction (by more than 40%). A negative dose-response was observed when peroxisomal beta-oxidation was determined in animals fed rapeseed oil diets with a variable content of erucic acid. When erucic acid was given as subcutaneous injections the peroxisomal beta-oxidation decreased, in both liver homogenates and isolated peroxisomes. In contrast to recent proposals, our findings indicate that the amount of erucic acid cannot account for the small increase in peroxisomal beta-oxidation observed in the liver of rats adapted to a diet containing 30 cal% rapeseed oil with a high content of this fatty acid. In fact, by the selected criteria erucic acid seems to have a negative modulating effect on both the peroxisomal beta-oxidation enzyme system and biogenesis.

Lipid metabolism in Chinese hamster V79-R membranes composed of unusual phospholipid molecular species

The relationship between the inhibition of cell growth and the changes in phospholipid metabolism in the presence of erucic acid was studied in Chinese hamster V79-R cells. 1. The addition of erucic acid to the medium inhibited cell growth. The degree of inhibition by erucic acid at a given concentration was dependent on cell density. 2. Exogenous erucic acid was incorporated into cellular phospholipids to form new phospholipid molecular species, which were identified to be the erucoyl/oleoyl, erucoyl/gondoyl and erucoyl/erucoyl species. 3. Synthesis of phosphatidylcholine and phosphatidylethanolamine in endoplasmic reticulum was reduced by erucic acid. Erucic acid had no effect on membrane flow of phospholipids from endoplasmic reticulum to plasma membrane. 4. The specific activity of sn-glycerol-3-phosphate acyltransferase in the membrane fraction from the cells supplemented with erucic acid was lower than that from the control cells. The reduction of phospholipid synthesis was attributed to the decrease in sn-glycerol-3-phosphate acyltransferase activity.

Erythrocyte membrane in rats fed high erucic acid-containing mustard oil: osmotic fragility, lipid composition, and (Na+, K+)- and (Ca2+, Mg2+)-ATPases

Erythrocyte hemolytic properties, cholesterol/phospholipid ratios, fatty acid composition, and activities of the membrane-bound enzymes (Na+, K+)- and (Ca2+, Mg2+)-ATPase were studied in male and female rats fed low erucic acid rapeseed (LEAR) and high erucic acid mustard oils (HEAM) for a period of 16 months. Rats receiving groundnut oil (GNO) served as controls. Erythrocytes from HEAM-receiving male and female rats showed increased resistance to hypotonic hemolysis. In male rats this was associated with an 85% increase (P less than 0.07) in the cholesterol/phospholipid molar ratio. The fatty acid double-bond index showed an increase in male rats receiving HEAM as well as LEAR oils. In the erythrocytes from female rats, the cholesterol/phospholipid molar ratio and double bond index remained unaffected. Specific activity of ouabain-sensitive (Na+, K+)-ATPase showed a small (+20%) but significant (P less than 0.05) increase in male but not female rats of HEAM group. Total (Na+, K+)-ATPase, ouabain-insensitive component, and (Ca2+, Mg2+)-ATPase were not altered in rats receiving LEAR or HEAM.

Influence of partially hydrogenated vegetable and marine oils on lipid metabolism in rat liver and heart

Partially hydrogenated marine oils containing 18:1-, 20:1- and 22:1-isomers and partially hydrogenated peanut oil containing 18:1-isomers were fed as 24-28 wt% of the diet with or without supplement of linoleic acid. Reference groups were fed peanut, soybean, or rapeseed oils with low or high erucic acid content. Dietary monoene isomers reduced the conversion of linoleic acid into arachidonic acid and the deposition of the latter in liver and heart phosphatidylcholine. This effect was more pronounced for the partially hydrogenated marine oils than for the partially hydrogenated peanut oil. The content of trans fatty acids in liver phospholipids was similar in groups fed partially hydrogenated fats. The distribution of various phospholipids in heart and liver was unaffected by the dietary fat. The decrease in deposition of arachidonic acid in rats fed partially hydrogenated marine oils was shown in vitro to be a consequence of lower delta 6-desaturase activity rather than an increase in the peroxisomal beta-oxidation of arachidonic acid. The lower amounts of arachidonic acid deposited may be a result of competition in the delta 6-desaturation not only from the C22- and C20-monoenoic fatty acids originally present in the partially hydrogenated marine oil, but also from C18- and C16-monoenes produced by peroxisomal beta-oxidation of the long-chain fatty acids.

Mitochondrial-membrane polar-head-group composition is influenced by diet fat

Male Sprague-Dawley rats were fed diets containing 20% (w/w) soya-bean oil, high-erucic acid rapeseed oil or low-erucic acid rapeseed oil for 0, 12 or 23 days. The type of fat present in the diet had no effect on the total phospholipid content of heart mitochondria (micrograms/mg of protein) but did influence the phospholipid class distribution. Rats fed high-erucic acid rapeseed oil for 12 or 23 days had significantly higher mitochondrial phosphatidylcholine content than rats fed soya-bean oil. Low-erucic acid rapeseed oil resulted in elevation of cardiac mitochondrial cardiolipin content after dietary treatment for 12 days. The results demonstrate in vivo that diet is a significant determinant of the phospholipid class content of subcellular membranes.

Effect of polyunsaturated fatty acids and antioxidants on lipid peroxidation in tissue cultures

Lipid peroxidation was measured by the thio-barbituric assay for malondialdehyde (MDA). A small amount of MDA was formed when medial cells from guinea pig aorta were grown in tissue culture. The polyunsaturated fatty acids 8,11,14-eicosatrienoic acid, 5,8,11,14-eicosatetraenoic acid, and 7,10,13,16-docosatetraenoic acid generated significant amounts of MDA in a time-dependent manner when they were added to cultures of medial cells and fibroblasts. MDA or its precursor remained within the cell and did not accumulate in the media. Indomethacin enhanced MDA formation from polyunsaturated fatty acid. Alpha-Tocopherol, alpha-tocopherolquinone, and 2,6-di-tert-butyl-4-methylphenol (BHT) inhibited MDA formation when a polyunsaturated fatty acid was incubated with the pro-oxidant cumene hydroperoxide. Menadione had no effect on MDA formation in the cumene hydroperoxide system. Alpha-Tocopherol and alpha-tocopherolquinone inhibited MDA formation when they were added to cells in culture. Menadione had no effect on MDA formation in tissue culture. Anti-oxidant effects which were time-dependent showed that intracellular MDA was generated from a lipid peroxide precursor during the thiobarbituric acid assay. Relative plating efficiency was measured in medial cells and fibroblasts. Alpha-Tocopherolquinone and alpha-tocopherol enhanced the extent of cell proliferation. Alpha-Tocopherolquinone overcame the inhibitory effect of a polyunsaturated fatty acid on the extent of cell proliferation. Menadione was cytotoxic. Thus antioxidant data support the hypothesis that the extent of cell proliferation is controlled in part by lipid peroxidation.

Liver ultrastructure in pigs fed various oils

In order to determine the effects of various dietary oils on the porcine liver, four groups of 10- to 11-week-old pigs received feed supplemented with either 10 per cent rapeseed oil (RO) of Tower (0.4 per cent erucic acid) or Target (30.2 per cent erucic acid) varieties, Atlantic herring oil, or soybean oil for 10 weeks. The ultrastructural appearance of the livers from pigs of a fifth group receiving no oil was compared with that from the livers of pigs fed dietary supplements of the four oils. Alterations induced by Tower RO (low erucic acid content) consisted of an increase in the extent and number of the following features in the hepatocytes: an increased number of tortuous cisternae of rough surfaced endoplasmic reticulum, signet ring-shaped mitochondria and cytoplasmic lacunae. Bile canalicular lumina were occluded by swollen microvilli and, or, globules of a lipid-like material. Alterations caused by Target RO (high erucic acid content) in hepatocytes were similar to those induced by Tower RO. Lesions seen in the pigs fed herring oil included an excess of membrane limited lipid droplets and an accumulation of electron dense bodies in the Golgi zone of liver parenchymal cells. Many bile canaliculi were dilated. A soybean oil supplement resulted in an accumulation of clusters of minute lipid droplets in hepatocytes and a stacking of mitochondrial cristae. It is concluded that the alterations represent functional modifications of hepatocytic metabolism in response to the oil supplements.

Control of lipolysis in triglyceride-enriched rat hearts

Hormonal and metabolic regulation of endogenous triglyceride hydrolysis was studied in triglyceride-enriched hearts obtained from rats fed 3 days with a trierucate-rich diet. Endogenous lipolysis was determined by measuring glycerol release during in vitro perfusion of the hearts. It appeared that there was a direct relation between the contractile state of the heart, the rate of glycerol release in the coronary effluent and the Ca2+ concentration in the perfusion medium. During Ca2+-free perfusion, 2,4-dinitrophenol stimulated oleate oxidation and this, as well as the addition of 2 x 10(-7) M glucagon, induced a marked stimulation of lipolysis. Insulin did not affect glucagon- and norepinphrine-stimulated lipolysis during substrate-free perfusion. The presented experiments point out that in lipid-enriched rat hearts the activity of the tissue lipase may be controlled by the rate of beta-oxidation and re-esterification of the liberated fatty acid, as well as by a shift to utilization of carbohydrate instead of fatty acids for energy supply.

Influence of physical training on the effects of dietary oils on cardiac morphology and phospholipids in rats

Male wistar rats fed purified diets containing 15% sunflower oil (SF) by weight, high erucic acid rapeseed oil (HEAR) or low erucic acid rapeseed oil (LEAR) for 12 weeks and subjected to a moderate treadmill running program were compared with sedentary animals fed the same diets on the basis of cardiac morphology and complete analysis of cardiac phospholipids. HEAR caused the highest incidence and number of heart lesions both in untrained and trained rats but in the latter there was a highly significant increase of the lesions. LEAR gave a higher incidence of lesions than SF in untrained rats but not in trained ones. If compared to SF, HEAR and LEAR increased cardiac diphosphatidylglycerol (DPG) and sphingomyelin (SM) content (mg/g wet tissue) and decreased phosphatidylcholines (PC) and phosphatidylethanolamines (PE) in untrained rats. Marked changes in the fatty acid pattern of these phospholipids were also observed. PE and PC in trained and untrained rats fed HEAR or LEAR contained elevated levels of C 22:5 (n-3) and C 22:6 (n-3) fatty acids whereas the C 22:4 (n-6) and C 22:6 (n-6) polyenes disappeared. Monoenes (C 18:1, C 20:1 or C 22:1) largely incorporated in DPG of rats fed the cruciferous oils. In SM levels of saturated fatty acids (C 16:0, C 18:0, C 20:0) and of n-9 monoenes (C 18:1, C 20:1, C 22:1, C 24:1) were higher in rats fed HEAR or LEAR than in those feds SF. These changes were mainly related to the high level of n-9 monoenes (oleic, eicosenoic and erucic acids) as well as to the high ratio linolenic/linoleic acid present in cruciferous oils. Physical training interacted with the effects of these dietary oils on the cardiac phospholipid composition. The relation between changes in phospholipid composition and the incidence and the number of cardiac lesions is discussed.

Heart lipidosis induced by short-term feeding of cis- or trans-docosenoic acids in weanling or 7-week-old rats

Weanling male rats were fed calcium-deprived diets containing 15% lipids, of which half is cis- or trans-docosenoic acid, for 5, 12 or 28 days. Elaidic or oleic acid-fed rats served as controls. After 5 days on diet, the rats fed brassidic acid showed heart triglyceride accumulation, but less than the erucic acid-fed rats. In both groups, the heart triglyceride content decreased with time and returned to normal values after 28 days. When similar diets were fed for 12 days to 7-week-old rats, brassidic acid, on the contrary, induced a greater triglyceride accumulation than erucic acid did.

Effect of strain, sex and duration of feeding on plasma fatty acids of rats fed various dietary oils

Experiments were conducted to determine if regression of cardiac lipidosis and strain or sex differences in susceptibility to cardiopathological change induced by rapeseed oils are coincident with physiological differences in fatty acid substrates supplied to the heart. Plasma fatty acid composition was determined in male Sprague-Dawley rats after 7 or 28 days and in female Sprague-Dawley and male Chester-Beatty rats after 28 days of feeding high or low erucic acid rapeseed oils, soybean oil or peanut oil. After 28 days, C14:0 and C18:1 fell and C20:4 increased as a percent of total fatty acid in all animals irrespective of oil fed, suggesting that changes in plasma fatty acids normally occur with development. Saturated and essential fatty acid profiles of male and female rats were different. Differences in plasma fatty acids stemming from sex-related physiological differences in whole body fat metabolism may form the basis of lower cardiopathological involvement for females. Results suggest physiological differences unrelated to plasma fatty acids determine strain differences in timing and severity of rapeseed oil-induced cardiac pathology.

Evidence of accumulation of ceramides containing [14C]nervonic acid in the rat lung following injection of [14C]erucic acid

A mixture of albumin-bound [14C]erucate and [3H]oleate was injected into rats fed a stock pellet diet containing 4% by weight of lipid. Chylomicrons containing the same labelled fatty acids were also injected into rats fed diets containing 15% by weight of rapeseed oil (48% of erucic acid), canbra oil (less than 5% of erucic acid) or ground nut oil (no erucic acid). Lung lipids were analyzed at various times after injection. In all cases, except in the rapeseed oil diet group, 14C radioactivity of lung 'monoacylglycerol' was ten times higher than 3H radioactivity. More than 85% of this 14C radioactivity was found in nervonic acid (24 : 1). It was shown by TLC and GLC analysis that 85-90% of the 14C radioactivity of this fraction was in ceramides (N-acyl-4-sphingenine). Ceramides containing [14C]nervonic acid disappeared from the lung with time and their incorporation with time into sphingomyelin was also observed. The absence of accumulation of 3H and 14C (18 : 1) in ceramides showed that oleic acid was not incorporated into sphingomyelin in the same way as nervonic acid. In the rapeseed oil diet group, there was no accumulation of 14C radioactivity in ceramides and conversion of erucic acid into nervonic acid was less, and into oleic acid more, than in other diet groups indicating a possible enzyme adaptation.

Effect of dietary long-chain fatty acids on the rates of cholesterol turnover processes, cholesterol origin and distribution in the rat intestinal lumen

Adult male rats were fed a semi-purified diet containing 20 p. 100 of lard or homogeneous triglycerides (tripalmitin, tristearin, triolein, trierucin) for 4 months. The rates of the processes (absorption, synthesis, degradation into bile acids, fecal and urinary excretion) involved in cholesterol turnover were measured using the isotope equilibrium method. The absorption coefficient of dietary cholesterol attained 71 +/- 3 p. 100 in rats fed the lard diet. It was unchanged in rats eating the triolein (73 +/- 3 p. 100) or tripalmitin (75 +/- 4 p. 100) diet but was drastically reduced in those receiving trierucin (45 +/- 1 p. 100) or tristearin (34 +/- 1 p. 100). Some functional and topological aspects of cholesterol absorption are discussed. Four to 6 times more endogenous cholesterol was found in the intestinal lumen of rats fed trierucin than in that of rats receiving a normolipid diet. Micelle cholesterol increase was also proportionally less. There was no direct relationship between the quantity of cholesterol found in the micelles and that absorbed. Dietary cholesterol was absorbed in the second as well as in the first half of the intestine, while the proportions of micellar cholesterol decreased continuously from the jejunum to the ileum. The rates of fecal excretion and fecal external secretion were inversely correlated to the absorption coefficient of dietary cholesterol, as has been previously described. The internal secretion was stimulated two to threefold in rats fed tristearin (22.3 +/- 0.7 mg/d), tripalmitin (28.4 +/- 4.6 mg/d) and trierucin (33.2 +/- 2.8 mg/d) as compared to rats fed lard (12.5 +/- 0.6 mg/d) or triolein (14.4 +/- 1.2 mg/d). Feeding a tripalmitin or a trierucin diet greatly increased cholesterogenesis (probably in the liver), while tristearin stimulated non-hepatic cholesterogenesis. The variations in daily bile acid elimination may be seen as an adaptive parameter, modulating its rate according to the cholesterol supply (absorption and synthesis).