Potentiating effect of 5,8,11-eicosatrienoic acid on human platelet aggregation

The physiological and pathological properties of Mead acid, an endogenous multifunctional n-9 polyunsaturated fatty acid

Mead acid (MA, 5,8,11-eicosatrienoic acid) is an n-9 polyunsaturated fatty acid (PUFA) and a marker of essential fatty acid deficiency, but nonetheless generally draws little attention. MA is distributed in various normal tissues and can be converted to several specific lipid mediators by lipoxygenase and cyclooxygenase. Recent pathological and epidemiological studies on MA raise the possibility of its effects on inflammation, cancer, dermatitis and cystic fibrosis, suggesting it is an endogenous multifunctional PUFA. This review summarizes the biosynthesis, presence, metabolism and physiological roles of MA and its relation to various diseases, as well as the significance of MA in PUFA metabolism.

Genomic Insights into Omega-3 Polyunsaturated Fatty Acid Producing Shewanella sp. N2AIL from Fish Gut

The genus Shewanella is widely distributed in niches ranging from an aquatic environment to spoiled fish and is loaded with various ecologically and commercially important metabolites. Bacterial species under this genus find application in bioelectricity generation and bioremediation due to their capability to use pollutants as the terminal electron acceptor and could produce health-beneficial omega-3 fatty acids, particularly eicosapentaenoic acid (EPA). Here, the genome sequence of an EPA-producing bacterium, Shewanella sp. N2AIL, isolated from the gastrointestinal tract of Tilapia fish, is reported. The genome size of the strain was 4.8 Mb with a GC content of 46.3% containing 4385 protein-coding genes. Taxonogenomic analysis assigned this strain to the genus Shewanella on the basis of average nucleotide identity (ANI) and in silico DNA-DNA hybridization (DDH), phylogenetically most closely related with S. baltica NCTC 10735T. The comparative genome analysis with the type strain of S. baltica revealed 693 unique genes in the strain N2AIL, highlighting the variation at the strain level. The genes associated with stress adaptation, secondary metabolite production, antibiotic resistance, and metal reduction were identified in the genome suggesting the potential of the bacterium to be explored as an industrially important strain. PUFA synthase gene cluster of size ~20.5 kb comprising all the essential domains for EPA biosynthesis arranged in five ORFs was also identified in the strain N2AIL. The study provides genomic insights into the diverse genes of Shewanella sp. N2AIL, which is particularly involved in adaptation strategies and prospecting secondary metabolite potential, specifically the biosynthesis of omega-3 polyunsaturated fatty acids.

Microbes: A Hidden Treasure of Polyunsaturated Fatty Acids

Microbes have gained a lot of attention for their potential in producing polyunsaturated fatty acids (PUFAs). PUFAs are gaining scientific interest due to their important health-promoting effects on higher organisms including humans. The current sources of PUFAs (animal and plant) have associated limitations that have led to increased interest in microbial PUFAs as most reliable alternative source. The focus is on increasing the product value of existing oleaginous microbes or discovering new microbes by implementing new biotechnological strategies in order to compete with other sources. The multidisciplinary approaches, including metabolic engineering, high-throughput screening, tapping new microbial sources, genome-mining as well as co-culturing and elicitation for the production of PUFAs, have been considered and discussed in this review. The usage of agro-industrial wastes as alternative low-cost substrates in fermentation for high-value single-cell oil production has also been discussed. Multidisciplinary approaches combined with new technologies may help to uncover new microbial PUFA sources that may have nutraceutical and biotechnological importance.

Omega-9 fatty acids: potential roles in inflammation and cancer management

Background

Omega-9 fatty acids represent one of the main mono-unsaturated fatty acids (MUFA) found in plant and animal sources. They are synthesized endogenously in humans, though not fully compensating all body requirements. Consequently, they are considered as partially essential fatty acids. MUFA represent a healthier alternative to saturated animal fats and have several health benefits, including anti-inflammatory and anti-cancer characters.

The main body of the abstract

This review capitalizes on the major omega-9 pharmacological activities in context of inflammation management for its different natural forms in different dietary sources. The observed anti-inflammatory effects reported for oleic acid (OA), mead acid, and erucic acid were directed to attenuate inflammation in several physiological and pathological conditions such as wound healing and eye inflammation by altering the production of inflammatory mediators, modulating neutrophils infiltration, and altering VEGF effector pathway. OA action mechanisms as anti-tumor agent in different cancer types are compiled for the first time based on its anti- and pro-carcinogenic actions.

Conclusion

We conclude that several pathways are likely to explain the anti-proliferative activity of OA including suppression of migration and proliferation of breast cancer cells, as well stimulation of tumor suppressor genes. Such action mechanisms warrant for further supportive clinical and epidemiological studies to confirm the beneficial outcomes of omega-9 consumption especially over long-term intervention.

Oxygenation of polyunsaturated fatty acids and oxidative stress within blood platelets

The oxygenation metabolism of arachidonic acid (ArA) has been early described in blood platelets, in particular with its conversion into the potent labile thromboxane A₂ that induces platelet aggregation and vascular smooth muscle cells contraction. In addition, the primary prostaglandins D₂ and E₂ have been mainly reported as inhibitors of platelet function. The platelet 12-lipoxygenase (12-LOX) product, i.e. the hydroperoxide 12-HpETE, appears to stimulate platelet ArA metabolism at the level of its release from membrane phospholipids through phospholipase A₂ (cPLA₂) and cyclooxygenase (COX-1) activities, the first enzymes in prostanoid production cascade. Also, 12-HpETE may regulate the oxygenation of other polyunsaturated fatty acids (PUFA) by platelets, especially that of eicosapentaenoic acid (EPA). On the other hand, the reduced product of 12-HpETE, 12-HETE, is able to antagonize TxA₂ action. This is even more obvious for the 12-LOX end-products from docosahexaenoic acid (DHA), 11- and 14-HDoHE. In addition, 12-HpETE plays a key role in platelet oxidative stress as observed in pathophysiological conditions, but may be regulated by DHA with a bimodal way according to its concentration. Other oxygenated products of PUFA, especially omega-3 PUFA, produced outside platelets may affect platelet functions as well.

Serum n-6 and n-9 Fatty Acids Correlate With Serum IGF-1 and Growth Up to 4 Months of Age in Healthy Infants

OBJECTIVE

The aim of this study was to study the relationship between insulin-like growth factor-1 (IGF-1), serum phospholipid fatty acids, and growth in healthy full-term newborns during infancy.

METHODS

Prospective observational study of a population-based Swedish cohort comprising 126 healthy, term infants investigating cord blood and serum at 2 days and 4 months of age for IGF-1 and phospholipid fatty acid profile and breast milk for fatty acids at 2 days and 4 months, compared with anthropometric measurements (standard deviation scores).

RESULTS

At all time-points arachidonic acid (AA) was negatively associated with IGF-1. IGF-1 had positive associations with linoleic acid (LA) at 2 days and 4 months and mead acid (MA) showed positive associations in cord blood. Multiple regression analyses adjusted for maternal factors (body mass index, weight gain, smoking, education), sex, birth weight and feeding modality confirmed a negative association for the ratio AA/LA to IGF-1. MA in cord blood correlated to birth size. Changes in the ratios of n-6/n-3 and AA/docosahexaenoic acid from day 2 to 4 months together with infants' weight and feeding modality determined 55% of the variability of delta-IGF-1. Breast-fed infants at 4 months had lower IGF-1 correlating with lower LA and higher AA concentrations, which in girls correlated with lower weight gain from birth to 4 months of age.

CONCLUSIONS

Our data showed interaction of n-6 fatty acids with IGF-1 during the first 4 months of life, and an association between MA and birth size when adjusted for confounding factors. Further follow-up may indicate whether these correlations are associated with later body composition.

Fatty acid-derived lipid mediators and blood platelet aggregation

Polyunsaturated fatty acids of nutritional value may affect cell functions after their release from cell lipid storage sites, especially phospholipids, and specific oxygenation by cyclooxygenases, lipoxygenases and cytochrome P(450). The end-products, namely prostanoids, leukotrienes, and mono-, di- and tri-hydroxy derivatives exhibit a variety of biological effects, especially on vascular cells, leukocytes and platelets. This paper reviews some results obtained with blood platelets as target cells, showing that various lipoxygenase end-products, mainly mono- and di-hydroxy derivatives, are inhibitors (IC(50) in microM range) of arachidonic acid-induced aggregation either at the cycloxygenase or thromboxane receptor site level.

Dietary fatty acids, platelets, endothelial cells and coronary heart disease

The dietary fatty acids include saturated and unsaturated fatty acids of the n-9, n-6 and n-3 families. Their quantity and quality are reflected in the plasma lipoproteins. The platelet and endothelial cell lipid composition also is influenced by the dietary fatty acids. These changes have consequences for cellular lipid and prostanoid metabolism and other cellular functions which could be related to the thrombosis mechanism. A high intake of saturated and n-9 unsaturated fatty acids induces changes in plasma, platelets and endothelial cells favouring thrombosis and atherosclerosis. By contrast, both n-6 and n-3 fatty acids give rise to plasma lipoprotein and cellular lipid composition that counteract atherosclerosis and thrombosis. The ideal balance between the various dietary fatty acids is not known. Experimental and epidemiological studies support the recommendation of a low saturated fat intake with supplement of both n-6 and -3 polyunsaturated fatty acids.

The inflammatory role of platelets in cystic fibrosis

Platelets are an important, albeit generally underappreciated, component of the inflammatory cascade. Platelets are known to contribute to inflammation in atherosclerosis, stroke, and asthma. They produce a large number of proinflammatory lipid mediators and cytokines, and play a vital role in recruitment of leukocytes into inflamed tissue. We review the role of platelets in inflammation, how they assist in the recruitment of leukocytes into lung tissue in asthma, and evidence of their dysfunction in cystic fibrosis (CF). Platelet dysfunction in CF could contribute to pulmonary inflammation and tissue destruction. We hypothesize that platelet activation is important in CF lung disease and suggest research avenues that might help elucidate the role of activated platelets in CF.

Platelet activation in cystic fibrosis

Cystic fibrosis (CF) is caused by a mutation of the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR). We examined platelet function in CF patients because lung inflammation is part of this disease and platelets contribute to inflammation. CF patients had increased circulating leukocyte-platelet aggregates and increased platelet responsiveness to agonists compared with healthy controls. CF plasma caused activation of normal and CF platelets; however, activation was greater in CF platelets. Furthermore, washed CF platelets also showed increased reactivity to agonists. CF platelet hyperreactivity was incompletely inhibited by prostaglandin E(1) (PGE(1)). As demonstrated by Western blotting and reverse-transcriptase-polymerase chain reaction (RT-PCR), there was neither CFTR nor CFTR-specific mRNA in normal platelets. There were abnormalities in the fatty acid composition of membrane fractions of CF platelets. In summary, CF patients have an increase in circulating activated platelets and platelet reactivity, as determined by monocyte-platelet aggregation, neutrophil-platelet aggregation, and platelet surface P-selectin. This increased platelet activation in CF is the result of both a plasma factor(s) and an intrinsic platelet mechanism via cyclic adenosine monophosphate (cAMP)/adenylate cyclase, but not via platelet CFTR. Our findings may account, at least in part, for the beneficial effects of ibuprofen in CF.

Assessment of essential fatty acid and omega3-fatty acid status by measurement of erythrocyte 20:3omega9 (Mead acid), 22:5omega6/20:4omega6 and 22:5omega6/22:6omega3

BACKGROUND

Early suspicion of essential fatty acid deficiency (EFAD) or omega3-deficiency may rather focus on polyunsaturated fatty acid (PUFA) or long-chain PUFA (LCP) analyses than clinical symptoms. We determined cut-off values for biochemical EFAD, omega3-and omega3/22:6omega3 [docosahexaenoic acid (DHA)]-deficiency by measurement of erythrocyte 20:3omega9 (Mead acid), 22:5omega6/20:4omega6 and 22:5omega6/22:6omega3, respectively.

METHODS

Cut-off values, based on 97.5 percentiles, derived from an apparently healthy omnivorous group (six Dominica breast-fed newborns, 32 breast-fed and 27 formula+LCP-fed Dutch low-birth-weight infants, 31 Jerusalem infants, 33 Dutch 3.5-year-old infants, 69 omnivorous Dutch adults and seven Dominica mothers) and an apparently healthy group with low dietary LCP intake (81 formula-fed Dutch low-birth-weight infants, 12 Dutch vegans). Cut-off values were evaluated by their application in an EFAD suspected group of 108, mostly malnourished, Pakistani children, three pediatric patients with chronic fat-malabsorption (abetal-ipoproteinemia, congenital jejunal and biliary atresia) and one patient with a peroxisomal beta-oxidation disorder.

RESULTS

Erythrocyte 20:3omega9, 22:5omega6/20:4omega6 and 22:5omega6/22:6omega3 proved age-dependent up to 0.2 years. Cut-off values for ages above 0.2 years were: 0.46mol% 20:3omega9 for EFAD, 0.068mol/mol 22:5omega6/20:4omega6 for omega3-deficiency, 0.22mol/mol 22:5omega6/22:6omega3 for omega3/DHA-marginality and 0.48mol/mol 22:5omega6/22:6omega3 for omega3/DHA-deficiency. Use of RBC 20:3omega9 and 22:5omega6/20:4omega6 cut-off values identified 20.4% of the Pakistani subjects as EFAD+omega3-deficient, 12.9% as EFAD+omega3-sufficient, 38.9% as EFA-sufficient+omega3-deficient and 27.8% as EFA-sufficient+omega3-sufficient. The patient with the peroxisomal disorder was classified as EFA-sufficient, omega3-sufficient (based on RBC 22:5omega6/20:4omega6) and omega3/DHA-deficient (based on RBC 22:5omega6/22:6omega3). The three other pediatric patients were classified as EFAD, omega3-deficient and omega3/DHA-deficient.

CONCLUSION

Use of the combination of the present cut-off values for EFA, omega3 and omega3/DHA status assessment, as based on 97.5 percentiles, may serve for PUFA supplement intervention until better concepts have emerged.

Plasma very low density lipoproteins from male rats fed casein or soybean protein diets: a comparison of fatty acid composition and influence on prostanoid production

In studies with male rats fed for 4 wk semipurified diets containing olive oil and casein or soybean protein, protein-dependent effects were observed in the fatty acid composition of the VLDL lipids, especially with regard to the pattern of polyunsaturated fatty acids. Compared with VLDL from rats fed soybean protein diet (S-VLDL), VLDL from casein-fed rats (C-VLDL) contained a greater level of oleic acid, and a reduced level of linoleic acid and arachidonic acid, in the phosphatidylcholine fraction. The proportion of 5,8,11-eicosatrienoic acid, 20:3 (n-9), varied among the different lipid classes. The highest concentration of this fatty acid (13% by weight of total fatty acids) was observed in the phosphatidylinositol fraction of C-VLDL. The level of linoleic acid was approximately halved in the triacylglycerol and cholesteryl ester fractions of C-VLDL compared with S-VLDL. When mouse peritoneal macrophages were incubated with different concentrations of S-VLDL, a saturable accumulation of 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) and thromboxane B2 (TXB2) was observed in the cell medium. In contrast, very low levels of 6-keto-PGF1 alpha and TXB2 were observed in the cell medium of macrophages incubated with C-VLDL at different lipoprotein concentrations, suggesting that the composition of VLDL may play an important role in relation to cellular prostanoid metabolism.

Effects of dietary fats on prostanoid production and aortic and plasma fatty acid composition in rats

Male Sprague-Dawley rats were fed diets with 10%, 30%, or 50% of energy derived from fat for two weeks. The fats used were beef tallow, olive oil, peanut oil and butter. Aortic prostacyclin (PGI2) production, platelet aggregation and thromboxane A2 (TXA2) production and plasma and aortic phospholipid (PL) content were measured. Butter- and beef tallow-feeding reduced aortic PGI2 production and collagen-induced TXA2 production in a dose-dependent manner as the level of fat in the diet increased. Neither olive oil nor peanut oil had any effect on aortic PGI2 production or collagen-induced TXA2 production. Butter-feeding also resulted in a decrease in collagen-induced platelet aggregation; however, none of the other fats had any effect on collagen-induced platelet aggregation. The observed decreases in aortic PGI2 and collagen-induced TXA2 production were paralleled by similar decreases in aortic and plasma PL arachidonic acid content and an increase in eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA). Only the most saturated fats, butter and beef tallow, had significant inhibitory effects on prostanoid production and platelet aggregation.

Dietary protein and fatty acid composition of liver lipids in the rat

In order to compare the effects of different sources of dietary protein on the fatty acid composition of phosphatidylcholines (PC), phosphatidylethanolamines (PE), phosphatidylinositols (PI), cholesteryl esters and triacylglycerols, male rats were fed for a 4-week period on cholesterol-free, or cholesterol-containing, diets based on casein, or soybean protein and olive oil. The most conspicuous difference observed was the occurrence of significantly higher levels of 5,8,11-eicosatrienoic acid, 20:3 (n - 9), in the different lipid classes of casein-fed, compared with soybean protein-fed, animals. In the PI fraction of livers from the groups of rats fed casein diet, this fatty acid amounted to between 9.9 and 13.3% by weight of the total fatty acids. Phospholipids from livers of casein-fed rats contained increased levels of oleic acid, 18:1 (n - 9) (in PC and PE) and reduced levels of stearic acid (18:0). Moreover, in this group of rats PI contained a reduced level of arachidonic acid, 20:4 (n - 6). A casein-related decrease in the linoleic acid, 18:2 (n - 6), content of PC and PE was observed only in the rats fed on cholesterol-free diet. Effects on the fatty acid composition were also observed in the triacyglycerol and cholesteryl ester fractions, in which the rats fed casein diet showed higher levels of palmitoleic acid, 16:1 (n - 7) (cholesterol-supplemented diet) and lower values for linoleic acid, than the soybean protein-fed rats.

Fatty acid composition of umbilical arteries and veins: possible implications for the fetal EFA-status

Fatty acid compositions were determined of phospholipids, isolated from umbilical arteries and veins, obtained from Dutch neonates after vaginal delivery, terminating normal pregnancy. The fatty acid profiles of the cord vessels were characterized by the absence of eicosapentaenoic (timnodonic) acid, a low (2-3%) content of linoleic acid and reasonable amounts of arachidonic acid (10-15%) and docosahexaenoic (cervonic) acid (3-5%). Significant amounts of Mead acid (1-4%) and its direct elongation product (0.5-2%) were also observed. In each cord, the efferent blood vessels contained significantly more Mead acid and other fatty acids of the oleic acid (n-9) family and less fatty acids of the linoleic (n-6) and linolenic (n-3) families than the afferent blood vessel. This indicates that the essential fatty acid (EFA) status of 'downstream' neonatal tissue may be marginal. No signs of EFA-deficiency were observed in endothelial and smooth muscle cells in culture, or in blood vessels from adults. In all cords 22:5(n-6) was significantly higher in the artery compared to the vein, whereas for all other (n-6) fatty acids this difference was negative. Since the synthesis of 22:5(n-6) is known to be stimulated when the required amount of cervonic acid, 22:6(n-3), is too low, our observations also suggest that the cervonic acid status of the neonates investigated was not optimal. Further studies are in progress to relate these findings to maternal EFA status and complications of pregnancy.

Eskimo plasma constituents, dihomo-gamma-linolenic acid, eicosapentaenoic acid and docosahexaenoic acid inhibit the release of atherogenic mitogens

Studies in man and laboratory animals suggest that omega 3 polyunsaturated fatty acid constituents of fish oils have antiatherosclerotic properties. We have studied the effects of several such polyunsaturated fatty acids for ability to modify the in vitro release of mitogens from human platelets. Such mitogens may produce the fibro-proliferative component of atherosclerotic plaques. Both 5,8,11,14,17-eicosapentaenoic acid (20:5 omega 3) and 4,7,10,13,16,19-docosahexaenoic acid (22:6 omega 3), major constituents of fish oils, inhibited adenosine diphosphate-induced aggregation of platelets and the accompanying release of mitogens. These effects are dose dependent. Linolenic acid (18:3 omega 3), the biosynthetic precursor of eicosapentaenoic acid, also inhibited platelet aggregation and mitogen release. Eicosapentaenoic acid also inhibited mitogen release from human monocyte-derived macrophages, which, in vivo, are an additional source of mitogens during atherogenesis. Potent inhibition of human platelet aggregation and mitogen release was also seen with dihomo-gamma-linolenic acid (8,11,14-eicosatrienoic acid 20:3 omega 6), whose levels are reportedly elevated in Eskimos subsisting on marine diets. We conclude that diets that elevate plasma and/or tissue levels of eicosapentaenoic acid, docosahexaenoic acid and dihomo-gamma-linolenic acid precursor gamma-linolenic acid (18:3 omega 6) may exert antiatherosclerotic effects by inhibiting the release of mitogens from platelets and other cells.

Normalization by dietary cod-liver oil of reduced thrombogenesis in essential fatty acid deficient rats

Rats, deficient in essential fatty acids (EFA), were given diets containing 5 energy% sunflowerseed oil (SO, rich in linoleic acid), cod-liver oil (CLO, rich in timnodonic acid and cervonic acid), or hydrogenated coconut oil (HCO), containing no EFAs at all. SO and CLO feeding resulted in normalization of the reduced arterial thrombus formation in EFA-deficient animals. SO feeding was associated with the normalization of the arachidonic acid content of platelet phospholipids. CLO feeding did not have this effect but greatly increased the availability of timnodonic acid (EPA) and cervonic acid (DHA). Further research is required to investigate whether these changes in fatty acid composition can be hold responsible for the normalizing effect of dietary CLO on the disturbed arterial thrombosis tendency in EFA deficient rats, possibly via the formation of eicosanoids.

Liberation and oxygenation of polyenoic acids in stimulated platelets

Radiolabeled polyenoic acids were incorporated into human platelet lipids using albumin as vector. Platelets were then triggered with 0.1 or 1 U/ml thrombin, and 0.5 or 2 x 10(-6) M calcium ionophore A23187. Lipid extracts were analyzed for neutral lipids, free fatty acids, monohydroxylated acids, prostanoids and glycocerophospholipid subclasses. During platelet activation induced by thrombin or by ionophore, arachidonic and eicosapentaenoic acids were liberated from phospholipids in large amounts and were subsequently oxygenated via platelet oxygenases. Substantial amounts of lipoxygenase products and thromboxanes were produced from these acids. Liberation and oxygenation of linoleic, alpha-linolenic, and docosahexaenoic acids were much less pronounced. Polyenoic acid liberation from phospholipid subclasses also behaved quite differently. Apart from alpha-linolenic and adrenic acids, which were poorly liberated, all the others were freed from phosphatidylinositol. In addition, arachidonic, eicosapentaenoic, and 5, 8, 11-eicosatrienoic acids were liberated from phosphatidylcholine at high concentrations of agonists and partially reincorporated into phosphatidylethanolamine. Finally, linoleic acid was deacylated from phosphatidylinositol and phosphatidylserine and almost entirely reacylated into phosphatidylcholine, whereas docosahexaenoic acid was deacylated from phosphatidylcholine and phosphatidylinositol reacylated into phosphatidylethanolamine, respectively. It is concluded that these polyenoic acids, all for which modulate platelet functions, exhibit very different metabolisms. They may act via their oxygenated derivatives and/or at the membrane phospholipid level.

Occurrence of the 15-hydroxy derivative of dihomogammalinolenic acid in human platelets and its biological effect

Various polyunsaturated fatty acids are oxygenated by platelet lipoxygenase at the n - 9 position. The present paper reports that platelets may also oxygenate dihomogammalinolenic acid (20:3(n - 6)) at the n - 6 position, leading to the formation of substantial amounts of 15-OH-8,11,13-20:3 characterized by its ultraviolet spectrum, HPLC and GC-MS analysis. Its formation was inhibited by aspirin and eicosatetraynoic acid, but not by heneicosatetraynoic acid, a specific inhibitor of platelet lipoxygenase. The time-course of its synthesis was very close to that of 12-OH-8,10-17:2 (HHD), the non-cyclic cyclooxygenase side-product, but different from that of 12-OH-8,10,14-20:3, the platelet lipoxygenase end-product of 20:3 (n - 6). Overall, these results indicate that 15-OH-20:3 could be a cyclooxygenase metabolite generated in an aborted process. Like other monohydroxy derivatives of polyenoic fatty acids, 15-OH-20:3 was able to modulate thromboxane-induced platelet aggregation. The derivative exhibited a biphasic effect on the aggregation. It potentiated at concentrations below 2.10(-7) M and inhibited at higher doses. It is concluded that the potentiating activity might explain at least part of the transient enhancement of the platelet activation observed in adding exogenous 20:3(n - 6).

Butter-enriched diets reduce arterial prostacyclin production in rats

Rats were fed diets containing 10%, 30% or 50% energy as fat derived predominantly from butter or lard. The protein content of the diets was maintained at 20%. After three weeks on the diets, the rats were killed and the following parameters measured: prostacyclin production in vitro from abdominal aorta and mesenteric artery; platelet aggregation to ADP and thrombin; fatty acid composition of the phospholipids in plasma, thoracic aorta and liver; smooth muscle reactivity and release of endothelial derived relaxing factor (EDRF) from aortic endothelium stimulated by acetylcholine. There was no significant effect of increasing fat content of the diets (neither lard nor butter) on platelet aggregation. In contrast, prostacyclin production in both the mesenteric artery and the abdominal aorta fell in a concentration-dependent manner in the butter-supplemented rats. However, no effect on prostacyclin production was detected in arteries from the lard-supplemented animals. The effects of the diets on prostacyclin (PGI2) production correlated very well with the changes in plasma, aortic and liver phospholipid arachidonic acid (AA) and eicosapentaenoic acid (EPA) contents. AA decreased in a concentration-dependent manner in the rats fed the butter-enriched diets but did not change in those fed the lard-enriched diets, whereas EPA rose in a concentration-dependent manner in the butter-fed rats and was unchanged in the lard-fed animals. The clear-cut effects of the butter-enriched diets on aortic phospholipid fatty acid composition and aortic PGI2 production were accompanied by a significant reduction in smooth muscle relaxation to EDRF.(ABSTRACT TRUNCATED AT 250 WORDS)

The effect of dietary saturated fat and cholesterol on platelet function, platelet survival and response to continuous aortic injury in rats

Induction of hypercholesterolemia in rats by diets containing milk fat, cholesterol and taurocholate caused increased sensitivity of platelets to thrombin-induced aggregation and release, but not to ADP- or collagen-induced aggregation or release. This hypersensitivity to thrombin persisted in the presence of CP/CPK to convert released ADP to ATP, and aspirin to block formation of thromboxane A2. The increased sensitivity of platelets to thrombin in hypercholesterolemic animals was associated with an increase in 18:1 omega 9, 18:2 omega 6 and 20:3 omega 6 and a decrease in 20:4 omega 6 and 22:4 omega 6 in their phospholipids. Hypercholesterolemic animals also had a shortened platelet survival that did not appear to be due to an alteration in the lipid composition of the platelets. The diet-induced changes in platelet function were not associated with enhanced thrombosis in animals with indwelling aortic catheters, but were associated with increased platelet accumulation on the exposed subendothelium.

Studies on polyenoic acid incorporation into human platelet lipid stores: interactions with linoleic and arachidonic acids

Several polyunsaturated fatty acids (C18-C22 acids) have been compared in their uptake by human platelets and their acylation into glycerophospholipid subclasses. This was also studied in the presence of linoleic and/or arachidonic acids, the main fatty acids of plasma free fatty acid pool. Amongst C20 fatty acids, dihomogamma linolenic acid (20:3(n-6)), 5,8,11-icosatrienoic acid (20:3(n-9)) and arachidonic acid (20:4(n-6)) were better incorporated. The uptake of 5,8,11,14,17-icosapentaenoic acid (20:5(n-3)) was significantly lower and comparable to that of C22 fatty acids (7,10,13,16-docosatetraenoic acid (22:4(n-6)) and 4,7,10,13,16,19-docosahexaenoic acid (22:6(n-3)) and linoleic acid (18:2(n-6)). In this respect, linolenic acid (18:3(n-3)) appeared the poorest substrate. The bulk of each acid was acylated into glycerophospholipids although the presence of linoleic and/or arachidonic acids diverted a part towards neutral lipids. This was prominent for 18:3(n-3) and C22 fatty acids. The glycerophospholipid distribution of each acid differed substantially and was not affected by the presence of linoleic and or arachidonic acids, except for 18:3(n-3) and 22:6(n-3) that were strongly diverted towards phosphatidylethanolamine (PE) at the expense of phosphatidylcholine (PC). The main features were an efficient acylation of 20:3(n-9) into phosphatidylinositol (PI) followed by 20:3(n-6) and 20:4(n-6), then by 20:5(n-3) and 22:4(n-6), and finally 22:6(n-3) and C18 fatty acids. This was reciprocal to the acylation into PE and to a lesser extent into PC which remained the main storage species in all cases. We conclude that human platelets may exhibit a certain specificity for taking up polyunsaturated fatty acids both in terms of total uptake and glycerophospholipid subclass distribution. Also the presence of polyunsaturated fatty acids of normal plasma, like linoleic and arachidonic acids, may interact specifically with such an uptake and distribution.

Nutrients, platelet function and composition in nine groups of French and British farmers

In 260 male farmers (40-45 years) divided into 9 groups from different areas in France and Britain, coagulation, platelet aggregation, lipemia, fatty acids from plasma lipids and platelet phospholipids were determined in relation to the food intake evaluated by recall, weighing and chemical analysis of the diet. The clotting activity of platelets and their response to thrombin aggregation was significantly correlated on an individual basis with the intake of saturated fatty acids both in subsamples as well as in the whole study. Serum cholesterol was also significantly correlated with saturated fats but only on a group basis or on the totality of the study. Calcium, linolenic acid and alcohol in the diet were inversely related to certain platelet functions. Linoleic acid was inversely related to serum cholesterol and triglycerides. Dietary saturated fats were associated, with an increase in the platelet phospholipids not in saturated fatty acids but in 20:3 (n-9), known to promote platelet aggregation to thrombin, with a decrease in platelet cholesterol, also apparently regulating platelet functions. The present studies indicate that dietary saturated fats, calcium (hard water) and alcohol, influence platelet behaviour in a way strictly parallel to their known effect on coronary heart disease.

Studies on platelet lipoxygenase specificity towards icosapolyenoic and docosapolyenoic acids

Two docosapolyenoic acids (22:5(n-3) and 22:5(n-6)) were isolated from the liver of normal and 18:3(n-3)-deficient trout, respectively. They were prepared by combined thin-layer chromatography (TLC) and reversed-phase high performance liquid chromatography (HPLC). Their purity, checked by capillary gas liquid chromatography, was greater than 95%. Each fatty acid was oxygenated into monohydroxy derivatives by human platelets. The hydroxy compounds were purified by TLC and HPLC and then derivatized for gas chromatography-mass spectrometry analysis. Whereas 22:5(n-6) was only converted into 14-OH-22:5, three hydroxy derivatives (11, 13 and 14) were obtained from 22:5(n-3). However, 13-hydroxy was not formed in the presence of aspirin, indicating that platelet lipoxygenase catalyses the formation of both 11- and 14-hydroxy derivatives from 22:5(n-3), as described previously, from 22:6(n-3). Further studies showed that 22:4(n-6) and 20:5(n-3) were only converted into 14- and 12-hydroxy derivatives. We conclude then that, besides the well-known n-9 oxygenation, lipoxygenase of human platelets is able to catalyse an n-12 oxygenation on docosapolyenoic acids of the n-3 family.

Effect of dietary (n--3) fatty acids on platelet function and lipid metabolism in rats

Six groups of rats were fed diets containing 40% (by weight) lipids, mostly as saturated fatty acids (from 78 to 90%), with a basic amount of linoleic acid (18:2) (1.9%). In four groups, 5% of the saturated fats were substituted with an oil (vegetable: corn, rapeseed; or fish: cod liver, maxepa) and in one group 0.6% of the saturated fats was replaced by eicosapentaenoic acid ethyl ester. The diets supplied different amounts of 18:2 (1.9 to 10%), 18:3 (0.2 to 1.2%), 20:5 (n--3) (eicosapentaenoic acid) (0 to 1.3%) and 22:6(n--3) (0 to 1.6%). After 3-8 months on diets, platelet aggregation, plasma and platelet cholesterol, fatty acids and incorporation of [14C]acetate and [14C]arachidonate into platelet lipids were investigated. The three diets supplying eicosapentaenoic acid (1.3%) induced an approximately 80-fold increase in this fatty acid in plasma and platelet phospholipids, mainly at the expense of arachidonic acid. This was associated with an increase of the incorporation of arachidonic acid into platelet PE and PS. The incorporation of acetate in the (n--3) fatty-acid-fed animals was markedly increased into 22:5 and 22:6(n--3) at the expense of 22:4(n--6). Platelet aggregation induced by ADP was similar in the six groups. The response to thrombin was lower in animals fed corn and maxepa oils. Collagen aggregation tended to be lower in the fish-oil groups. Platelet aggregation to collagen was significantly negatively correlated to the level of eicosapentaenoic acid in platelet phospholipids, while the aggregation to thrombin was related to the level of 20:3(n--9). In the present study in rat, the (n--3) fatty acids added in small amounts to a saturated fat diet over a period of several months induced drastic changes in platelet lipid metabolism and composition without comparable effects on platelet behaviour.

Effect of dietary protein level on platelet aggregation in rat

In order to investigate the effects of dietary protein level on the development of atherosclerosis and arterial thrombosis, studies were made on platelet function, plasma lipids and aortic prostaglandin I2 biosynthesis in rats. Under the same calorie intake, the group consuming a low level of protein (10% casein) increased plasma triglycerides and platelet aggregability in comparison with control (20% casein) and high protein groups (60% casein). Moreover, the low protein group produced more thromboxane A2 and less prostaglandin I2 compared with the high protein one. These data suggest that high protein diets may have beneficial effects on arterial thrombosis.

Prostaglandin E2-like activity of 20:3n-9 platelet lipoxygenase end-product

5,8,11-Icosatrienoic acid (20:3n-9), a fatty acid associated with platelet hyperactivity, was oxygenated by platelet lipoxygenase. The end-product of this pathway was purified by high-performance liquid chromatography (HPLC) and characterized as 12-hydroxy-5,8,10-icosatrienoic acid [12-OH-20:3(5,8,10)] by capillary gas-liquid mass spectrometry. When tested upon platelet aggregation, 12-OH-20:3(5,8,10) exhibited a biphasic effect. At low concentrations (below 5 X 10(-7) M) it potentiated aggregation but inhibited it at higher levels, a pattern similar to that obtained with prostaglandin E2. However, since the amounts of 12-OH-20:3(5,8,10) generated under thrombin stimulation are in the range of concentrations with potentiating effects, it seems that the 12-OH derivative is responsible for the hyperaggrebility of 20:3n-9-rich platelets.

In vitro incorporation and metabolism of some icosaenoic acids in platelets. Effect on arachidonic acid oxygenation

Three icosaenoic acids (20:3(n-6), 20:5(n-3) and 20:3(n-9)) which may arise in platelet phospholipids under certain dietary conditions and which may affect platelet functions have been taken up by human platelets. Each acid was pre-coated onto delipidated albumin and then incubated with platelets isolated from their plasma. The distribution study of each acid in cellular lipids revealed that around 80% of the acid taken up was located in phospholipids, of which the bulk was in phosphatidylcholine. The percentage incorporation of each acid into the different glycerophospholipids was similar to their endogenous percentage profiles, therefore simulating the in vivo situation. The icosaenoic acids then incorporated were liberated from phospholipids when platelets were incubated with thrombin or calcium ionophore A23187 and subsequently oxygenated through the cyclooxygenase and/or lipoxygenase pathway. Whereas 20:3(n-6) was readily converted into cyclooxygenase products, 20:5(n-3) was more specifically converted into lipoxygenase products, and this latter conversion was comparable to that of 20:3(n-9) which is not a prostanoid precursor. Finally, only 20:3(n-6)- or 20:5(n-3)-rich platelets exhibited a reduced availability of endogenous arachidonic acid from phospholipids when induced by thrombin. It is concluded that inhibitory polyunsaturated fatty acids (20:3(n-6) and 20:5(n-3)) could act both by reducing prostaglandin H2/thromboxane A2 production from endogenous arachidonic acid and in generating platelet inhibitory substances (cyclooxygenase and/or lipoxygenase products of 20:3(n-6) and 20:5(n-3)). On the other hand, 20:3(n-9), a fatty acid which potentiates platelet aggregation through its lipoxygenase end product, could produce sufficient amounts of this compound to enhance the aggregation when platelets are triggered with inducers of phospholipase activity such as thrombin or calcium ionophore.

Effects of dietary lipids on behaviour, lipid biosynthesis and lipid composition, in rat platelets

Rats of either sex were fed for 18 and 34 weeks respectively diets containing 40% (by weight) lipids with polyunsaturated fatty acids representing 1.34% or 13.2% of total calories. Platelet reactivity to thrombin, platelet fatty acid composition and incorporation of [14C]acetate into platelet lipids were investigated. Diets rich in saturated fatty acids markedly increased platelet sensitivity to thrombin. The concentration of 20:3 and 22:3 of the (n - 9) series and of 20:3 and 22:5 of the (n - 6) series were increased at the expense of 18:2 and 22:4 of the (n - 6) family in platelet lipids. 20:4 (n - 6) was unchanged. The fatty acid changes were more pronounced in male rats and after 34 weeks. [14C]Acetate incorporation into total platelet lipids and particularly into choline phosphoglycerides and ceramides was lower in animals fed saturated fats. This diet reduced the synthesis of 16:0 and of 22:4(n - 6) in platelet total fatty acids, while that of 22:3(n - 9) was markedly enhanced. This study showed that long-term feeding of high-saturated-low-polyunsaturated fat diets in rats induced marked changes in platelet lipid synthesis and composition, in both sexes. The lipid synthesis modification appears to be more pronounced in males than in females. The changes in the fatty acids 20:3(n - 9), 22:3(n - 9) and 22:4(n - 6) appeared to be closely related to platelet behaviour. The balance between the content and synthesis of these last fatty acids might be of significance for the effect of diet on thrombogenesis.

Arachidonic acid, 5,8,11-eicosatrienoic acid and 5,8,11,14, 17-eicosapentaenoic acid. Dietary manipulation of the levels of these acids in rat liver and platelet phospholipids and their incorporation into human platelet lipids

Rats were fed diets in which the sole source of fat was either ethyl oleate, linoleate, linolenate or an equal mixture of ethyl linoleate and linolenate. The fatty acid composition of individual phospholipids from platelets and liver was compared to define how total body metabolism regulates which unsaturated fatty acids are produced and incorporated into platelet lipids for potential release and conversion to eicosanoids. The level of 20:4(n-6) in all phospholipids was not markedly altered by feeding linoleate versus that found in chow-fed controls. In oleate fed rats, the 20:3(n-9)/20:4(n-6) ratio varied from 0.5 in liver PE to 4.1 for liver PI, while ratios of 1.0, 1.1, 0.7 and 1.3 were found respectively for platelet PE, PC, PS and PI. Platelet PE contained a component tentatively identified as 22:3(n-9), which is consistent with the finding that this lipid contains significant amounts of 22:4(n-6) and 22:5(n-3) when rats received respectively linoleate or linolenate. Rats fed linolenate have a tight coupling between the regulation of unsaturated fatty acid biosynthesis and the selective acylation of 20:5(n-3) into all lipids. The 20:5(n-3)/20:4(n-6) ratio, however, varied between lipids. In liver PE, PC, PS and PI it was respectively 4.3, 4.9, 3.8 and 0.4, while in the analogous platelet lipids it was 3.0, 4.0, 0.9 and 0.6. Feeding linolenate did not markedly elevate the levels of 22:5(n-3) or 22:6(n-3) in platelet PI, but the combined amounts of 22:5(n-3) and 22:6(n-3) in liver PI were 21.2%, versus 2.9% in chow-fed controls. When the diet contained linoleate and linolenate, there was selective conversion of 18:2(n-6) to 20:4(n-6) and its acylation into lipids versus analogous metabolism of 18:3(n-3) to 20:5(n-3) and its subsequent incorporation. Again, the 20:5(n-3)/20:4(n-6) ratio was lowest for platelet PI and PS and liver PI. Washed human platelets readily incorporated 20:3(n-9), 20:4(n-6) and 20:5(n-3) into phospholipids. With each substrate, PI had the highest specific activity; this effect was most pronounced with 20:3(n-9). These incorporation studies are consistent with the feeding studies which show that oleate is converted to 20:3(n-9) and incorporated into PI more readily than the analogous metabolism of 18:3(n-3) to 20:5(n-3) and its acylation into PI, which is an important source of unsaturated fatty acids for prostaglandin biosynthesis.

Effects of dietary arachidonate deficiency on the aggregation of cat platelets

Because the cat lacks the ability to synthesize a significant amount of arachidonate from linoleate in the liver, arachidonate is a dietary essential. We studied the effects of essential fatty acid deficiency on the aggregation of cat platelets. Cat platelets aggregated in response to ADP, collagen, arachidonate and epinephrine. Aggregation was impaired in platelets from cats fed arachidonate-deficient diets. Including a source of linoleate in the arachidonate-deficient diet did not improve aggregation. Arachidonate is required in the diet of the cat for normal platelet aggregation.

Lipoxygenase activity of intact human platelets

The oxygenation by lipoxygenase of different icosaenoic and docosaenoic acids by intact human platelets was studied. The HPLC analysis of the hydroxy compound (s) derived from icosaenoic acids showed that the 12-derivatives predominate. The increase of the fatty acid concentration markedly enhanced their oxygenation except for icosapentaenoic acid. The conversion of this acid into its hydroxy derivative rose in the presence of arachidonic acid, probably through both its cyclo-oxygenase and lipoxygenase product formation. Since 12-hydroxy-icosaenoic acids are modulators of PGH2-induced platelet aggregation, we conclude that the interactions between polyunsaturated fatty acids during their oxygenation by platelet lipoxygenase could be relevant to the regulating activity of dietary fatty acids.