Basal very low-density lipoprotein metabolism in response to exercise: Mechanisms of hypotriacylglycerolemia

Although the hypotriacylglycerolemic effect of exercise was described more than 40 years ago, the mechanisms responsible for triacylglycerol (TAG)-lowering have just recently started to be elucidated. Delayed-onset hypotriacylglycerolemia in the basal state, 1 day after a single bout of endurance exercise is due to augmented efficiency of very low-density lipoprotein (VLDL)-TAG removal from the circulation, likely mediated by the secretion of fewer but TAG-richer VLDL particles from the liver; exercise-induced changes in skeletal muscle lipoprotein lipase are more likely a contributing rather than the primary factor of TAG-lowering. This illustrates, in vivo, how changes in VLDL-apolipoprotein B-100 metabolism in the liver can effect changes in VLDL-TAG metabolism in the periphery. The exercise-induced increase in basal VLDL-TAG clearance rate plateaus at ∼40%, whereas the threshold of energy that needs to be expended during endurance exercise lies near or above 500–600 kcal. Resistance exercise is more potent than endurance exercise in this respect. Exercise-induced changes in basal hepatic VLDL-TAG secretion 12–24 h after exercise are not negligible but span around zero; available data indicates that reduced hepatic VLDL-TAG secretion rate may be responsible for the persistence of hypotriacylglycerolemia at later time points (⩾48 h) after exercise cessation, or following training. Our understanding of the mechanisms leading to TAG-lowering after exercise has advanced considerably in recent years, but much remains to be learned.