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Title: A comparison of the specific activities of linoleate and arachidonate in liver, heart and kidney phospholipids after feeding rats ethyl linoleate-9,10,12,13-d4. Author: Luthria DL, Sprecher H. Journal: Biochim Biophys Acta; 1994 Jun 23; 1213(1):1-4. PubMed ID: 8011670. Abstract: In order to determine how dietary linoleate is metabolized, rats were maintained on a chemically defined diet containing 1.6% ethyl linoleate. After 5 weeks the linoleate was replaced by an equal amount of ethyl 9,10,12,13-d4-linoleate. The animals were killed 3 days later and the molar percentage of d4-linoleate and d4-arachidonate were quantified in liver, heart and kidney phospholipids. In liver, 54 and 22.8 mol% respectively of the esterified linoleate and arachidonate was deuteriated. The lower specific activity of arachidonate versus linoleate suggests that desaturation of linoleate, by a 6-desaturase, is not only rate limiting for synthesis of arachidonate but that the amount of newly synthesized arachidonate is insufficient by itself to maintain steady state levels of esterified arachidonate. The molar fraction of deuteriated linoleate in heart and kidney phospholipids was respectively 35 and 37.4%. These values are lower than for liver phospholipids but it appears there is adequate dietary linoleate available in these tissues for the synthesis of arachidonate. However, of the esterified arachidonate in heart and kidney phospholipids only 4.2 and 8.6 mol% respectively was deuteriated. Our results suggest that arachidonate is made in liver and transported to heart and kidney.[Abstract] [Full Text] [Related] [New Search]