Fate of fatty acids at rest and during exercise: Regulatory mechanisms

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Abstract

Fatty acids are a major fuel source for humans both at rest and during exercise. Plasma free fatty acids (FFA), although present only in micromolar concentrations, are the major circulating lipid fuel. FFA availability can increase two- to four-fold with moderate intensity exercise. Other potential sources of fatty acids include circulating very low-density lipoprotein (VLDL) triglycerides (TGs) (∼1/5 the fuel availability of FFA) and intramyocellular TGs (∼2 mmol kg-1 muscle). At rest ∼40% of systemic FFA uptake occurs in the splanchnic bed and uptake in legs is ∼15-20%. During leg exercise the uptake of FFA in leg tissue increases to 30-60% of systemic uptake and splanchnic uptake decreases to 15%. The fate of VLDL TG fatty acids has not been adequately studied. Intramyocellular TG hydrolysis increases during exercise, but the factors that regulate this response are not clear. The fact that contraction of isolated muscles can stimulate the hydrolysis and oxidation of intramyocellular TGs (in the absence of hormonal or neural input) suggests an intracellular regulation of this process. Additional regulation from changes in catecholamines and insulin may also occur. During moderate intensity exercise circulating FFA and intramyocellular TG provide roughly equal portions of fatty acids for oxidation. In addition to endurance training, dietary factors have been shown to modulate the fatty acid oxidation response to exercise. Much remains to be learned about fatty acid trafficking during exercise. What role do VLDL TG play? How is the oxidation of intramyocellular TGs regulated? Techniques to address these questions in humans are only now becoming available.

Original languageEnglish (US)
Pages (from-to)385-390
Number of pages6
JournalActa Physiologica Scandinavica
Volume178
Issue number4
DOIs
StatePublished - Aug 1 2003

Keywords

  • Free fatty acids
  • Intramuscular triglyceride
  • Isotopic tracers
  • Lipolysis

ASJC Scopus subject areas

  • Physiology

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