Conversion of alpha-linolenic acid in humans is influenced by the absolute amounts of alpha-linolenic acid and linoleic acid in the diet and not by their ratio

Key Findings:

The debate regarding the importance of the omega 6 to omega 3 ratio versus the absolute amounts of these fatty acids in order to increase long chain omega 3 synthesis is addressed in this study. The authors report data suggesting that the individual amounts of dietary ALA and LA, as well as a decrease in dietary LA with a concomitant increase in ALA intakes would be the most effective way to enhance EPA and DHA conversion. Further reducing the amount of dietary LA enhanced the amount of ALA that was converted into EPA.  And the amount of synthesized DHA was increased with higher ALA intake. Since there are many people who won’t or can’t eat seafood or enough to obtain EPA and DHA and recognizing concerns with the sustainability of the fisheries, these results are key to undertaking strategies to increase ALA in the diet.

ABSTRACT:

BACKGROUND: Human in vivo data on dietary determinants of alpha-linolenic acid (ALA; 18:3n-3) metabolism are scarce. OBJECTIVE: We examined whether intakes of ALA or linoleic acid (LA; 18:2n-6) or their ratio influences ALA metabolism. DESIGN: During 4 wk, 29 subjects received a control diet (7% of energy from LA, 0.4% of energy from ALA, ALA-to-LA ratio = 1:19). For the next 6 wk, a control diet, a low-LA diet (3% of energy from LA, 0.4% of energy from ALA, ratio = 1:7), or a high-ALA diet (7% of energy from LA, 1.1% of energy from ALA, ratio = 1:7) was consumed. Ten days before the end of each dietary period, [U-13C]ALA was administered orally for 9 d. ALA oxidation was determined from breath. Conversion was estimated by using compartmental modeling of [13C]- and [12C]n-3 fatty acid concentrations in fasting plasma phospholipids. RESULTS: Compared with the control group, ALA incorporation into phospholipids increased by 3.6% in the low-LA group (P = 0.012) and decreased by 8.0% in the high-ALA group (P < 0.001). In absolute amounts, it increased by 34.3 mg (P = 0.020) in the low-LA group but hardly changed in the high-ALA group. Nearly all ALA from the plasma phospholipid pool was converted into eicosapentaenoic acid. Conversion of eicosapentaenoic acid into docosapentaenoic acid and docosahexaenoic acid hardly changed in the 3 groups and was <0.1% of dietary ALA. In absolute amounts, it was unchanged in the low-LA group, but increased from 0.7 to 1.9 mg (P = 0.001) in the high-ALA group. ALA oxidation was unchanged by the dietary interventions. CONCLUSION: The amounts of ALA and LA in the diet, but not their ratio, determine ALA conversion.

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