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1 Nuffield Department of
Clinical Biochemistry,
We have studied the
fate of lipoprotein lipase (LPL)-derived fatty acids by measuring
arteriovenous differences across subcutaneous adipose tissue and
skeletal muscle in vivo. Six subjects were fasted overnight and were
then given 40 g of triacylglycerol either orally or as an intravenous
infusion over 4 h. Intracellular lipolysis (hormone-sensitive lipase
action; HSL) was suppressed after both oral and intravenous fat loads
(P < 0.001). Insulin, a major
regulator of HSL activity, showed little change after either oral or
intravenous fat load, suggesting that suppression of HSL action
occurred independently of insulin. The rate of action of LPL (measured
as triacylglycerol extraction) increased with both oral and intravenous
fat loads in adipose tissue (P = 0.002) and skeletal muscle (P = 0.001). There was increased escape of LPL-derived fatty acids into the circulation from adipose tissue, shown by lack of reesterification of
fatty acids. There was no release into the circulation of LPL-derived fatty acids from skeletal muscle. These results suggest that insulin is
not essential for HSL suppression or increased triacylglycerol clearance but is important in reesterification of fatty acids in
adipose tissue but not uptake by skeletal muscle, thus affecting fatty
acid partitioning between adipose tissue and the circulation, postprandial nonesterified fatty acid concentrations, and hepatic very
low density lipoprotein secretion.
Intralipid; hormone-sensitive lipase; lipoprotein lipase; fatty acid reesterification
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