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Linoleic acid humans

Linoleic and a-linolenic acids are the only fatty acids known to be essential for the complete nutrition of many species of animals, including humans, and are known as the nutritionally essential fatty acids. In most mammals, arachidonic acid can be formed from linoleic acid (Figure 23-4). Double bonds can be intro-... [Pg.190]

The essential fatty acids in humans are linoleic acid (C-18 2 N-6) and a-linolenic acid (C18 3 N-3). Arachidonic acid (C20 4 N-6) is also essential but can be synthesized from linoleic acid. Administration of 2% to 4% of total daily calories as linoleic acid should be adequate to prevent essential fatty acid deficiency in adults (e.g., infusion of 500 mL of 20% intravenous lipid emulsion once weekly).7 Biochemical evidence of essential fatty acid deficiency can develop in about 2 to 4 weeks in adult patients receiving lipid-free PN, and clinical manifestations generally appear after an additional... [Pg.1495]

Yeum, K.-J. et al. (1995). Similar metabolites formed from beta-carotene by human gastric mucosal homogenates, lipoxygenase, or linoleic acid hydroperoxyde. Arch. Biochem. Biophys. 321(1) 167-174. [Pg.228]

Tricon S, Burdge G C, Kew S, Banerjee T, Russell J J, Jones E L, Grimble R F, Williams C M, Calder P C and Yaqoob P (2004), Effects of cis-9, trans-11 and trans-10, cis-12 conjugated linoleic acid on immune function in healthy humans , American Journal of Clinical Nutrition, 80, 1626-1633. [Pg.115]

Belkner et al. [32] demonstrated that 15-LOX oxidized preferably LDL cholesterol esters. Even in the presence of free linoleic acid, cholesteryl linoleate continued to be a major LOX substrate. It was also found that the depletion of LDL from a-tocopherol has not prevented the LDL oxidation. This is of a special interest in connection with the role of a-tocopherol in LDL oxidation. As the majority of cholesteryl esters is normally buried in the core of a lipoprotein particle and cannot be directly oxidized by LOX, it has been suggested that LDL oxidation might be initiated by a-tocopheryl radical formed during the oxidation of a-tocopherol [33,34]. Correspondingly, it was concluded that the oxidation of LDL by soybean and recombinant human 15-LOXs may occur by two pathways (a) LDL-free fatty acids are oxidized enzymatically with the formation of a-tocopheryl radical, and (b) the a-tocopheryl-mediated oxidation of cholesteryl esters occurs via a nonenzymatic way. Pro and con proofs related to the prooxidant role of a-tocopherol were considered in Chapter 25 in connection with the study of nonenzymatic lipid oxidation and in Chapter 29 dedicated to antioxidants. It should be stressed that comparison of the possible effects of a-tocopherol and nitric oxide on LDL oxidation does not support importance of a-tocopherol prooxidant activity. It should be mentioned that the above data describing the activity of cholesteryl esters in LDL oxidation are in contradiction with some earlier results. Thus in 1988, Sparrow et al. [35] suggested that the 15-LOX-catalyzed oxidation of LDL is accelerated in the presence of phospholipase A2, i.e., the hydrolysis of cholesterol esters is an important step in LDL oxidation. [Pg.810]

Dietary polyunsaturated fatty acids (PUFAs), especially the n-3 series that are found in marine fish oils, modulate a variety of normal and disease processes, and consequently affect human health. PUFAs are classified based on the position of double bonds in their lipid structure and include the n-3 and n-6 series. Dietary n-3 PUFAs include a-linolenic acid, eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA) whereas the most common n-6 PUFAs are linoleic acid, y-linolenic acid, and arachidonic acid (AA). AA is the primary precursor of eicosanoids, which includes the prostaglandins, leukotrienes, and thromboxanes. Collectively, these AA-derived mediators can exert profound effects on immune and inflammatory processes. Mammals can neither synthesize n-3 and n-6 PUFAs nor convert one variety to the other as they do not possess the appropriate enzymes. PUFAs are required for membrane formation and function... [Pg.192]

Human 15-lipoxygenase and soybean LO-1 H/D-atom transfer from per-H vs. per-D Unoleic acid Cll to Fe-O Soybean lipoxygenase-1, WT and L546A mutant, H-atom transfer from H, D labeled linoleic acid Cll to Fe-O... [Pg.53]

Bylund J, Kunz T, Valmsen K, Oliw EH. 1998. Cytochromes P450 with bisallylic hydroxylation activity on arachidonic and linoleic acids studied with human recombinant enzymes and with human and rat liver microsomes. J Pharmacol Exp Ther 284 51-60. [Pg.81]

In human being, arachidonic acid is the most important precursor for the biosynthesis of eicosanoids. Arachidonic acid is formed from linoleic acid in most mammalians by desaturation and carbon elongation to dihomog-linolenic acid and subsequent desaturation. [Pg.225]

Dietary intake is of great importance. Linoleic acid (C18 2o)6) and a-linolenic acid (C18 3o)3) are the parent essential fatty acids for humans. Both fatty acids derive from vegetable oils. Higher fatty acids are then produced by chain elongation and desaturation. In addition, some of the prime essential fatty acids, AA (C20 4o)6), EPA (C20 5w3) and DHA (C22 6w3), can be obtained directly from the diet. Meat and eggs are rich in AA, whereas fish is a rich source of EPA and DHA [14]. [Pg.218]

Two fatty acids are dietary essentials in humans (see p. 361) linoleic acid, which is the precursor of arachidonic acid, the sub strate for prostaglandin synthesis (see p. 211), and linolenic acid, the precursor of other co-3 fatty acids important for growth and development. [Note A deficiency of linolenic acid results in decreased vision and altered learning behaviors.] Arachidonic add becomes essential if linoleic acid is deficient in the diet. [Pg.180]

Correct answer = E. Prostaglandins are synthesized from arachidonic acid. Arachidonic acid is synthesized from linoleic acid, an essential fatty acid obtained by humans from dietary lipids. The teenager would be able to synthesize all other compounds, but presumably in somewhat depressed amounts. [Pg.198]

The dietary precursor of the prostaglandins is the essential fatty acid, linoleic acid. It is elongated and desaturated to arachidonic acid, the immediate precursor of the predominant class of prostaglandins (those with two double bonds) in humans (Figure 17.22). [Note Arachidonic acid is released from membrane-bound phospholipids by phospholipase Ap in response to a variety of signals (Figure 17.23).]... [Pg.211]

Certain polyunsaturated fatty acids are essential in the human diet (see Box 21-B). One of these, arachidonic acid (which may be formed from dietary linoleic acid), serves as a precursor for the formation of the hormones known as prostaglandins and a series of related prostanoids. Lipids of animal origin also... [Pg.381]

Outline the steps by which linoleic acid can be converted to prostaglandins in the human body. [Pg.1225]

Nakagawa H, Kiyozuka Y, Uemura Y, Senzaki H, Shikata N, Hioki K, Tsubura A. 2001. Resveratrol inhibits human breast cancer cell growth and may mitigate the effect of linoleic acid, a potent breast cancer cell stimulator. J Cancer Res Clin Oncol... [Pg.327]

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See also in sourсe #XX -- [ Pg.35 , Pg.83 ]



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