Abstract
Intracellular lipid pools are highly dynamic and tissue-specific. Physical exercise is a strong physiologic modulator of lipid metabolism, but most studies focus on changes induced by long-term training. To assess the acute effects of endurance exercise, mice were subjected to one hour of treadmill running, and 13C16-palmitate was applied to trace fatty acid incorporation in soleus and gastrocnemius muscle and liver. The amounts of carnitine, FFA, lysophospholipids and diacylglycerol and the post-exercise increase in acetylcarnitine were pronouncedly higher in soleus than in gastrocnemius. In the liver, exercise increased the content of lysophospholipids, plasmalogens and carnitine as well as transcript levels of the carnitine transporter. 13C16-palmitate was detectable in several lipid and acylcarnitine species, with pronounced levels of tracer-derived palmitoylcarnitine in both muscles and a strikingly high incorporation into triacylglycerol and phosphatidylcholine in the liver. These data illustrate the high lipid storing activity of the liver immediately after exercise whereas in muscle, fatty acids are directed towards oxidation. The observed muscle-specific differences accentuate the need for single-muscle analyses as well as careful consideration of the particular muscle employed when studying lipid metabolism in mice. In addition, our results reveal that lysophospholipids and plasmalogens, potential lipid signalling molecules, are acutely regulated by physical exercise.
Highlights
Intracellular lipid pools are highly dynamic and tissue-specific
The aim of our study was to identify individual lipids and lipid metabolites that are acutely regulated by physical exercise and to compare the lipid composition and dynamics of muscle and liver
The soleus has a higher rate of fatty acid oxidation[21] and a greater capacity for carnitine uptake than the gastrocnemius, due to a higher content of the carnitine transporter Slc22a5 (OCTN2)[22]
Summary
Intracellular lipid pools are highly dynamic and tissue-specific. Physical exercise is a strong physiologic modulator of lipid metabolism, but most studies focus on changes induced by long-term training. Our results reveal that lysophospholipids and plasmalogens, potential lipid signalling molecules, are acutely regulated by physical exercise Certain lipids such as ceramides, diacylglycerols, and acylcarnitines have been shown to activate intracellular signalling cascades and to regulate metabolic pathways[1,2,3,4]. To study the acute regulation of lipid species in skeletal muscles and liver by endurance exercise, untrained mice were subjected to one hour of moderately intense treadmill running. This protocol has previously been shown to provoke metabolic and transcriptional responses in both tissues[15,16]. Free fatty acids (FFA), acylcarnitines and lipids were assessed by ultra-high performance liquid chromatography-mass spectrometry (UHPLC-MS)
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