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  • Title: Accelerated essential fatty acid deficiency by delta 9 desaturase induction: dissociation between the effects on liver and other tissues.
    Author: Lefkowith JB.
    Journal: Biochim Biophys Acta; 1990 May 01; 1044(1):13-9. PubMed ID: 2340302.
    Abstract:
    Essential fatty acid (EFA) deficiency is an important tool in probing the role of arachidonic acid (20:4(n-6] in pathophysiologic processes, but requires stringent and prolonged deprivation of (n-6) fatty acids. The present study investigated whether induction of the delta 9 desaturase, which is responsible for the synthesis of oleate, the precursor of 20:3(n-9) which uniquely accumulates in the deficiency state, might serve to accelerate the biochemical and biological effects of EFA deficiency. By alternately fasting and feeding animals a fat-free diet, it was possible to induce markedly the delta 9 desaturase selectively in liver. This dietary manipulation in consequence led to dramatic and rapid changes in hepatic phospholipid fatty acid composition. Within 2 weeks, 20:3(n-9) to 20:4(n-6) ratios in liver phospholipids were several fold greater than those seen in animals fed a fat-free diet alone. These changes, however, contrasted with those seen in the serum and other tissues. The mol% of 20:3(n-9) in serum was not increased by delta 9 desaturase induction and the 20:3(n-9) to 20:4(n-6) ratio was only modestly increased. The effects of delta 9 desaturase induction were even more attenuated in tissues other than the liver. Desaturase induction led to a doubling in the 20:3(n-9) to 20:4(n-6) ratio in phosphatidylcholine in renal cortex and heart, although the ratio in the other phospholipids was unaffected. The 20:3(n-9) to 20:4(n-6) ratio in peritoneal macrophage phospholipids was unaffected by desaturase induction. Thus, delta 9 desaturase induction greatly augments the synthesis of (n-9) fatty acids within the liver and leads to the rapid and substantial accumulation of the abnormal fatty acid, 20:3(n-9). This markedly augmented synthesis of hepatic 20:3(n-9), however, is not reflected in increased plasma levels of 20:3(n-9), and thus the effects of delta 9 desaturase induction are attenuated in tissues other than the liver. These data underscore the notable ability of the liver to maintain polyunsaturated fatty acid homeostasis.
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