Abstract
This study investigated the role of long-chain n-3 polyunsaturated fatty acids (LCn-3PUFAs) of muscle phospholipids in the regulation of neonatal metabolism. Twenty-eight piglets were weaned at 2 days of age and raised on one of two milk formulas that consisted of either a control formula supplying 0% or a formula containing 3.5% LCn-3PUFAs until 10 or 28 days of age. There was a developmental decline in the insulin sensitivity of amino acid disposal in control pigs during the first month of life, with a slope of -2.24 micromol.kg(-1).h(-1) (P = 0.01) per unit of insulin increment, as assessed using hyperinsulinemic-euglycemic-euaminoacidemic clamps. LCn-3PUFA feeding blunted this developmental decline, resulting in differing insulin sensitivities (P < 0.001). When protein metabolism was assessed under parenteral feeding-induced hyperinsulinemia, LCn-3PUFAs reduced by 16% whole body oxidative losses of amino acids (from 238 to 231 micromol.kg(-1).h(-1); P = 0.06), allowing 41% more amino acids to accrete into body proteins (from 90 to 127 micromol.kg(-1).h(-1); P = 0.06). The fractional synthetic rate of muscle mixed proteins remained unaltered by the LCn-3PUFA feeding. However, LCn-3PUFAs retarded a developmental increase in the essential-to-nonessential amino acid ratio of the muscle intracellular free pool (P = 0.05). Overall, alterations in metabolism were concomitant with a preferential incorporation of LCn-3PUFAs into muscle total membrane phospholipids (P < 0.001), in contrast to intramuscular triglycerides. These results underscore the potential role of LCn-3PUFAs as regulators of different aspects of protein metabolism in the neonate.
Highlights
This study investigated the role of long-chain n-3 polyunsaturated fatty acids (LCn-3PUFAs) of muscle phospholipids in the regulation of neonatal metabolism
Total membrane phospholipids of longissimus dorsi were enriched in LCn3PUFAs by 776% on average, and the increment was more notable in 28 day old piglets
As n-3 fatty acids exhibit a great affinity for phospholipids, the total n-6 fatty acid series was concomitantly decreased by 34% on average by menhaden oil feeding
Summary
This study investigated the role of long-chain n-3 polyunsaturated fatty acids (LCn-3PUFAs) of muscle phospholipids in the regulation of neonatal metabolism. Alterations in metabolism were concomitant with a preferential incorporation of LCn-3PUFAs into muscle total membrane phospholipids (P , 0.001), in contrast to intramuscular triglycerides These results underscore the potential role of LCn-3PUFAs as regulators of different aspects of protein metabolism in the neonate.—Bergeron, K., P. Long-chain n-3 fatty acids enhance neonatal insulin-regulated protein metabolism in neonate piglets by differentially modifying muscle phospholipid and intramuscular triglyceride composition. Insulin resistance leading to defects in glucose metabolism in certain pathological states, such as obesity, type II diabetes, and insulin resistance attributable to high-fat feeding, can be improved through dietary LCn-3PUFAs from fish oil [5,6,7] In such instances, enhanced glucose metabolism in response to insulin stimulation relies on the complex biophysical and biochemical effects of highly unsaturated fatty acid content in membranes. The current study was undertaken to establish whether LCn-3PUFAs would affect protein metabolism in the neonatal pig to explore new avenues for intervening at different stages of development
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