Metabolism of arachidonic acid, its concentration in animal products and influence on inflammatory processes in the human body: a review / Metabolizm kwasu arachidonowego, jego stężenie w produktach zwierzęcych i wpływ na procesy zapalne w organizmie człowieka – artykuł przeglądowy

Azcona J.O., Schang M.J., Garcia P.T., Gallinger C., Ayerza R., Coates W. (2008). Omega-3 enriched broiler meat: The influence of dietary α-linolenic-ω-3 fatty acid sources on growth, performance and meat fatty acid composition. Can. J. Anim. Sci., 88: 257-269.Search in Google Scholar

Bagga D., Wang L., Farias - Eisner R., Glaspy J.A., Reddy S.T. (2003). Differential effects of prostaglandin derived from n-6 and n-3 polyunsaturated fatty acids on COX-2 expression and IL-6 secretion. Proc. Natl. Acad. Sci. USA., 100: 1751-1756.Search in Google Scholar

Barowicz T., Pieszka M. (2001). Using linseed oil in fattening pig rations to modify chemical composition and dietetic value of pork. Suppl. Polish J. Food Nutr. Sci., 3: 42-45.Search in Google Scholar

Bauer J.E. (1997). Fatty acid metabolism in domestic cats (Felis catus) and cheetahs (Acinonyx jubatas). Proc. Nutr. Soc., 56: 1013-1024.Search in Google Scholar

Bezard J., Blond J.P., Bernard A., Clouet P. (1994). The metabolism and availability of essential fatty acids in animal and human tissues. Reprod. Nutr. Dev., 34: 539-568.Search in Google Scholar

Bolesławska I., Ko źlicka I., Walkowiak J., Schegel- Zawadzka M., Przysław - ski J. (2007). Profil kwasów tłuszczowychwfosfolipidach osocza krwi młodych kobietimężczyzn poddanych suplementacji cynkiem. Bromat. Chem. Toksykol., 3: 273-278.Search in Google Scholar

Bousquet J., Chanez P., Lacoste J.Y., Barneon G. (1992). Adisease remodeling the airways. Allergy., 47: 3-13.Search in Google Scholar

Brash A. (2001). Arachidonic acid asabioactive molecule. J. Clin. Inv., 11: 1339-1345.Search in Google Scholar

Calder P.C. (2006). n-3 Polyunsaturated fatty acids, inflammation, and inflammatory diseases. Am. J. Clin Nutr., 83: 505-519.Search in Google Scholar

Calder P.C. (2009). Polyunsaturated fatty acids and inflammatory processes: new twists in an old tale. Biochimie., 91: 791-795.Search in Google Scholar

Cameron N.D., Enser M., Nute G.R., Whittingen F.M., Penman J.C., Frisken A.C., Perry A.M., Wood J.D. (2000). Genotype with nutrition interaction on fatty acid composition of intramuscular fat and relationship with flavour of pig meat. Meat Sci., 55: 187-195.Search in Google Scholar

Carvalho P.R., Pita M.C.G., Neto N.P., Mendon ça C.X. (2009). Efficiency of PUFAs incorporation from marine source in yolk egg’s laying hens. Int. J. Poultry Sci., 8 (6): 603-614.Search in Google Scholar

Chilliard Y., Glasser F., Ferlay A., Bernard L., Rouel J., Doreau M. (2007). Diet, rumen biohydrogenation and nutritional quality of cow and goat milk fat. Europ. J. Lipid. Sci. Technol., 109: 828-854.Search in Google Scholar

Chilliard Y., Martin C., Rouel J., Doreau M. (2008). Milk fatty acids in dairy cows fed whole crude linseed, extruded linseed, or linseed oil, and their relationship with methane output. J. Dairy Sci., 92: 5199-5211.Search in Google Scholar

Cichosz G., Czeczot H. (2011). Spuriously healthy plant fats (in Polish). Pol. Merk. Lek., 184: 239-243.Search in Google Scholar

Coleman R.A., Lewin T.M., Van Horn C.G., Gonzalez - Baró M.R. (2002). Do longchain acyl-Co Asynthetases regulate fatty acid entry into synthetic versus degradative pathways? J. Nutr., 132: 2123-2126.Search in Google Scholar

Cook W.H., Mc Master Ch. (2002). Fatty acid desaturation and chain elongation in eukaryotes. In: Biochemistry of Lipids, Lipoproteins and Membranes, Vance D.E., Vance J.E. (Eds), pp. 181-198.Search in Google Scholar

Czauderna M., Kowalczyk J., W ąsowska I., Nied źwiedzka K.M., Pastuszew- ska B. (2003). The effects of selenium and conjugated linoleic acid (CLA) isomers on fatty acid composition, CLAisomer content tissue and growth of rats. J. Anim. Feed. Sci., 12: 865-881.Search in Google Scholar

Czyż M., Wata ła C. (2005). Aspirin - the prodigious panacea? Molecular mechanisms of the action of acetylsalicylic acid in the organism (in Polish). Post. Hig. Med. Dośw., 59: 105-115.Search in Google Scholar

Darmstadt G.L., Mc Guire J., Ziboh V.A. (2000). Malnutrition-associated rash of cystic fibrosis. Pediatr. Dermatol., 17: 337-347.Search in Google Scholar

Daza A., Rey A.I., Ruiz J., Lopez- Bote C.J. (2005). Effect of feeding in free-range conditions or in confinement with different dietary MUFA/PUFAratios and α-tocopheryl acetate, on antioxidants accumulation and oxidative stability in Iberian pigs. Meat Sci., 69: 151-163.Search in Google Scholar

Dobryniewski J., Szajda S.D., Waszkiewicz N., Zwierz K. (2007). Biology of essential fatty acids (EFA). Prz. Lek., 64 (2): 91-99.Search in Google Scholar

Doege H., Stahl A. (2006). Protein mediated fatty acid uptake: novel insights from in vivo models. Physiology, 21: 259-268.Search in Google Scholar

Dove C.R., Haydon K.D. (1992). The effect of copper and fat addition to the diets of weanling swine on growth performance and serum fatty acids. J. Anim. Sci., 70: 805-811.Search in Google Scholar

Eder K., Slomma N., Becker K. (2002). Trans-10, cis-12 conjugated linoleic acid suppresses the desaturation of linoleic and α-linolenic acids in Hep G2 cells, J. Nutr., 132: 1115-1121.Search in Google Scholar

Flachowsky G., Schöne F., Schaarmann G., Lübbe F., B öhme H. (1997). Influence of oilseeds in combination with vitamin Esupplementation in the diet on backfat quality of pigs. Anim. Feed Sci. Technol., 64: 91-100.Search in Google Scholar

Gao F., Kiesewetter D., Chang L., Ma K., Bell J.M., Rapoport S., Igarashi M. (2009).Whole-body synthesis-secretion rates of long-chain n-3 PUFAs from circulating unesterified α-linolenic acid in unanesthetized rats. J. Lipid Res., 50: 750-75810.1194/jlr.D800056-JLR200265666919074373Search in Google Scholar

Guivernau M., Meza N., Barja P., Roman O. (1994). Clinical and experimental study on the long-term effect of dietary gamma-linolenic acid on plasma lipids, platelet aggregation, thromboxane formation, and prostacyclin production. Prostag. Leukotr. Ess., 51(5): 311-316.Search in Google Scholar

Haug A., Olesen I., Christophersen O.A. (2010). Individual variation and intraclass correlation in arachidonic acid and eicosapentaenoic acid in chicken muscle. Lipids Health Dis., 9, p. 3710.1186/1476-511X-9-37287521220398309Search in Google Scholar

Jabłońska- Trypuć A., Czerpak R. (2009). Metabolism of unsaturated fatty acids and their importance in circulatory system prophylaxis and therapy (in Polish). Prz. Kardiodiabetolog., 4 (2): 55-63.Search in Google Scholar

Jeli ńska M. (2005). Kwasy tłuszczowe - czynniki modyfikujące procesy nowotworowe. Biul. Wydz. Farm. AMW., 1: 1-9.Search in Google Scholar

Jenkins T.C., Wallace R.J., Moate P.J., Mosley E.E. (2008). Recent advances in biohydrogenation of unsaturated fatty acids within the rumen microbial ecosystem. J. Anim. Sci., 86: 397-412.Search in Google Scholar

Johanson M.M., Swan D.D., Surette M.E. (1997). Dietary supplementation with gamma-linolenic acid alters fatty acid content and eicosanoid production in healthy humans. J. Nutr., 127: 1435-1444.Search in Google Scholar

Jump D.B., Clarke S.D., Thelen A.T., Liimata M. (1994). Coordinate regulation of glycolytic and lipogenic gene expression by polyunsaturated fatty acids. J. Lipid. Res., 35: 1076-1084.Search in Google Scholar

Kolanowski W. (2007). Long chain polyunsaturated omega-3 fatty acids and their role in reducing the risk of life-style related diseases (in Polish). Bromat. Chem. Toksykol., 3: 229-237.Search in Google Scholar

Kouba M., Enser M., Whittington F.M., Nute G.R., Wood J.D. (2003). Effect ofahighlinolenic acid diet on lipogenic enzyme activites, fatty acid composition, and meat quality in the growing pig. J. Anim. Sci., 81: 1967-1979.Search in Google Scholar

Kristensen L., Therkildsen M., Riis B., S ørensen M.T., Oksbjerg N., Pur- slow P.P., Ertbjerg P. (2002). Dietary-induced changes of muscle growth rate in pigs: Effects on in vivo and post-mortem muscle proteolysis and meat quality. J. Anim. Sci., 80: 2862-2871.Search in Google Scholar

Lacasse P., Kennelly J.J., Delbercchi L., Ahnadi C.E. (2002). Addition of protected and unprotected fish oil to diets for dairy cows. I. Effects on the yield, composition and taste of milk. J. Dairy Sci., 69 (4), 511-520.Search in Google Scholar

Levy B.D., Clish C.B., Schmidt B., Gronert K., Serhan C.N. (2001). Lipid mediator class switching during acute inflammation: signals in resolution. Nat. Immunol., 2: 612-619.Search in Google Scholar

Li D., Ng A., Mann N.J., Sinclair A.J. (1998). Contribution of meat fat to dietary arachidonic acid. Lipids, 33 (4): 437-440.Search in Google Scholar

Long N.C., Otterness I., Konkel S.L., Vander A.J., Kluger M.J.(1990). Role of interleukin-1β and tumor necrosis factor in lipopolysaccharide fever in the rat. Am. J. Physiol., 259: 724-728.Search in Google Scholar

Loor J.J., Ueda K., Ferlay A., Chilliard Y., Doreau D. (2005). Intestinal flow and digestibility of trans fatty acids conjugated linoleic fatty acids (CLA) in dairy cows fedahigh-concentrate diet supplemented with fish oil, linseed oil, or sunflower oil. Anim. Feed Sci. Technol., 119: 203-225.Search in Google Scholar

López- Bote C.J., Isabel B., Daza A. (2002). Partial replacement of poly- with monounsaturated fatty acids and vitamin Esupplementation in pig diets: effect on fatty acid composition of subcutaneous and intramuscular fat and on fat and lean firmness. Anim. Sci., 75: 349-358.Search in Google Scholar

Łoś - Rycharska E., Czerwionka - Szaflarska M. (2010). Długołańcuchowe wielonienasycone kwasy tłuszczowe szeregu omega-3wdiecie kobiet ciężarnych, karmiących, niemowląt i małych dzieci. Gastroenterologia Polska, 17 (4): 304-312.Search in Google Scholar

Maciaszek K., Strzetelski J. (2005). Możliwości operowania zmianamiwskładzie kwasów tłuszczowychwtłuszczach zwierzęcych. Wiad. Zoot., 3: 41-47.Search in Google Scholar

Mason L.M., Hogan S.A., Lynch A., O ’sullivan K., Lawlor P.G., Kerry J.P. (2005). Effects of restricted feeding and antioxidant supplementation on pig performance and quality characteristics of longissimus dorsi muscle from Landrace and Duroc pigs. Meat Sci., 70: 307-317.Search in Google Scholar

Mc Arthur M.J., Atshaves P.B., Frolov A., Foxworth W.D., Kier A.B., Schro- eder F. (1999). Cellular uptake and intracellular trafficking of long chain fatty acids. J. Lipid Res., 40: 1371-1383.Search in Google Scholar

Nakamura T.M., Nara T.Y. (2004). Structure, function, and dietary regulation of Δ6, Δ5, and Δ9 desaturates. Ann. Rev. Nutr., 24: 345-376.Search in Google Scholar

Nobar R.S.D., Nazeradl K., Gorbani A. (2007). Effect of canola oil on saturated fatty acids contents in broiler meats. J. Anim. Vet. Advances, 6: 1204-1208.Search in Google Scholar

Noci F., Monahan F.J., French P., Moloney A.P. (2005). The fatty acid composition of muscle fat and subcutaneous adipose tissue of pasture-fed beef heifers: Influence of the duration of grazing. J. Anim. Sci., 83: 1167-1178.Search in Google Scholar

Nowak J.Z. (2009). Omega-3 polyunsaturated fatty acids: biochemical, functional and practical aspects (in Polish). Farmakoterapiaw Psychiatriii Neurologii, 3-4: 127-146.Search in Google Scholar

Nuernberg K., Ender K., Dannenberger D. (2006). Possibilities to produce healthy, tasty meat and to improve its nutritional value. Pol. J. Food Nutr. Sci., 15/56 (1): 17-21.Search in Google Scholar

Oliveira D.D., Baião N.C., Cancado S.V., Grinaldi R., Souza M.R., Lara L.J.C., Lana A.M.Q. (2010). Effects of lipid sources in the diet of laying hens on the fatty acid profiles of egg yolks. Poultry Sci., 89: 2484-2490.Search in Google Scholar

Palmquist D.L. (2009). Omega-3 fatty acids in metabolism, health and nutrition and for modified animal product foods. Prof. Anim. Sci., 25: 207-249.Search in Google Scholar

Paradowski M., Szablewski M., Pi ątas S., Majda J. (2005). Biochemical disturbances in patients with systemic inflammatory response syndrome (SIRS) and sepsis. Part I. Biochemical disturbances in patients with sepsis (in Polish). Prz. Epidemiol., 59: 865-872.Search in Google Scholar

Pieszka M., Pa ściak P., Janik A., Barowicz T., Wojtysiak D., Migdał W. (2006). The effect of sex and dietary antioxidants β-carotene, vitamins Cand Ein CLA-enriched diet on lipid profile and oxidative stability of pork meat. J. Anim. Feed Sci., 15: 37-45.Search in Google Scholar

Rego O.A., Rosa H.J.D., Portugal P.V., Franco T. Vouzela C.M., Borba A.E.S., Bessa R.J.B. (2005). The effects of supplementation with sunflower and soybean oils on the fatty acid profile of milk fat from grazing dairy cows. Anim. Res., 54: 17-24.Search in Google Scholar

Scollan N., Hocquette J.F., Nuernberg K., Dannenberger D., Richardson I., Moloney A. (2006). Innovations in beef production systems that enhance the nutritional and health value of beef lipids and their relationship with meat quality. Meat Sci., 74: 17-33.Search in Google Scholar

Scollan N.D., Choi N.J., Kurt E., Fisher A.V., Enser M., Wood J.D. (2001). Manipulating the fatty acid composition of muscle and adipose tissue in beef cattle. Brit. J. Nutr., 85 (1): 115-124.Search in Google Scholar

Shin D., Narciso- Gaytan C., Park J.H., Smith S.B., Sanches- Plata M.X., Ruiz - - Feria C.A. (2011). Dietary combination effect of conjugated linoleic acid and flaxseed or fish oil on the concentration of linoleic and arachidonic acid in poultry meat. Poultry Sci., 90, 1340-1347.10.3382/ps.2010-0116721597077Search in Google Scholar

Shin D., Choi S.H., Go G., Park J.H., Narciso- Gaytan C., Morgan C.A., Smith S.B., Sanches- Plata M.X., Ruiz - Feria C.A. (2012). Effect of dietary combination of n-3 and n-9 fatty acids on the deposition of linoleic and arachidonic acid in broiler chicken meat. Poultry Sci., 91: 1009-1017.Search in Google Scholar

Simopoulos A. (2001). Evolutionary aspects of diet and essential fatty acids. World Rev. Nutr. Diet., 88: 18-27.Search in Google Scholar

Simopoulos A.P. (2002). The importance of the ratio of omega-6/omega-3 essential fatty acids. Biomed. Pharmacother., 56: 365-379.Search in Google Scholar

Skiba G. (2005). Physiological aspects of compensatory growth in pigs. J. Anim. Feed Sci., 14, Suppl. 1: 191-203.Search in Google Scholar

Skiba G., Po ławska E., Raj S., Weremko D., Czauderna M., Wojtasik M. (2011). The influence of dietary fatty acids on their metabolism in liver and subcutaneous fat in growing pigs. J. Anim. Feed Sci., 20: 379-388.Search in Google Scholar

Smink W., Gerrits W.J.J., Hovenier R., Geelen M.J.W., Verstegen M.W.A., Bey- nen A.C. (2010). Effect of dietary fat sources on fatty acid deposition and lipid metabolism in broiler chickens. Poultry Sci., 89: 2432-2440.Search in Google Scholar

Smith S.B., Hively T.S., Cortese G.M., Han J.J., Chung K.Y., Casteñada P., Gil- bert C.D., Adams V.L., Mersmann H.J. (2002). Conjugated linoleic acid depresses the delta-9 desaturase index and stearoyl coenzyme Adesaturase enzyme activity in porcine subcutaneous adipose tissue. J. Anim. Sci., 80: 2110-2115.Search in Google Scholar

Spector A.A. (2000). Plasma free fatty acid and lipoproteins as sources of polyunsaturated fatty acid for the brain. J. Mol. Neurosci., 16: 159-165.Search in Google Scholar

Sprecher H. (2002). The roles of anabolic and catabolic reactions in the synthesis and recycling of polyunsaturated fatty acids. Prostag. Leukotr. Ess., 67: 79-83.Search in Google Scholar

Stołyhwo - Szpajer M., Pi ękosz K., Bellwon J., Stołyhwo A., Rynkiewicz A. (2001). Polyunsaturated fatty acids and their influence on risk factors with special attention to blood pressure (in Polish). Arterial Hypertension, 5 (3): 211-219.Search in Google Scholar

Strzetelski J.A., Kowalczyk J., Osięgłowski S., Stasiniewicz T., Lipiańska E., Pustkowiak A. (2001). Fattening bulls on maize silage and concentrate supplemented with vegetable oils. J. Anim. Feed Sci., 10: 259-271.Search in Google Scholar

Taber L., Chiu Ch-H., Whelan J. (1998). Assessment of the arachidonic acid content in foods commonly consumed in the American diet. Lipids, 33 (12): 1151-1157.Search in Google Scholar

Wainwright P.E. (2002). Dietary essential fatty acids and brain function:adevelopmental perspective on mechanisms. Proc. Nutr. Soc., 61: 61-69.Search in Google Scholar

Walczewska A., Stepie ń T., Bewicz - Bi ńkowska D., Zg órzyńska E. (2011). The role of docosahexaenoic acid in neuronal function (in Polish). Post. Hig. Med. Dośw. 65: 314-327.Search in Google Scholar

Washizaki K., Smith Q.R., Rapoport S.I., Purdon A.D. (1994). Brain arachidonic acid incorporation and precursor pool specific activity during intravenous infusion of unesterified [3H]arachidonate in the anesthetized rat. J. Neurochem., 63: 727-736.Search in Google Scholar

Wąsowska I., Maia M.R.G., Nied źwiedzka K.M., Czauderna M., Ramalho Ri - beiro J.M.C., Devillard E., Shingfield K.J., Wallach R.J. (2006). Influence of fish oil on ruminal biohydrogenation of C18 unsaturated fatty acids. Br. J. Nutr., 95: 1199-1211.Search in Google Scholar

Yang - Yi F., Chapkin R.S. (1998). Importance of dietary gamma-linolenic acid in human health and nutrition. J. Nutr., 128:1411-1414.Search in Google Scholar

Zymon M., Strzetelski J. (2007). Chances of intramuscular fat modification in beef cattle (in Polish). Med. Weter., 63: 1526-1529. Search in Google Scholar