Lipid Metabolism in Muscle

Vusse, Ger J.; Reneman, Robert S.

doi:10.1002/cphy.cp120121

Cited by 52 publications

(51 citation statements)

References 302 publications

(394 reference statements)

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“…acylglycerol stores can be mobilized by catecholamines [8,9] and by exercise [2,3,10,11]. The exercise-induced decrease in muscle triacylglycerol concentration can be reduced by β-adrenergic blockade, and must accordingly be due to some extent to sympathetic stimulation [12].…”

Section: Figure 1 Cross-section Of a Soleus Muscle From A 25-day-old Ratmentioning

confidence: 99%

“…While it seems that the intramuscular triacylglycerols constitute a dynamic energy store, the enzymic regulation of triacylglycerol breakdown in muscle is poorly understood [3,11,13,14]. Skeletal muscle contains three different types of triacylglycerol lipases [2,3].…”

Section: Figure 1 Cross-section Of a Soleus Muscle From A 25-day-old Ratmentioning

confidence: 99%

“…Skeletal muscle contains three different types of triacylglycerol lipases [2,3]. One is a lysosomal lipase with an in itro pH optimum of 5.…”

Section: Figure 1 Cross-section Of a Soleus Muscle From A 25-day-old Ratmentioning

confidence: 99%

“…The energy content of this triacylglycerol store is higher than the energy content of the muscle glycogen pool [3]. The muscle triacylglycerol concentration is increased by a high-fat diet [4] and in poorly controlled diabetes [5,6], and is inversely related to whole-body insulin action [7].…”

Section: Introductionmentioning

confidence: 99%

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Expression of hormone-sensitive lipase and its regulation by adrenaline in skeletal muscle

Langfort¹,

Ploug²,

Ihlemann³

et al. 1999

Biochem. J.

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Section: Figure 1 Cross-section Of a Soleus Muscle From A 25-day-old Ratmentioning

confidence: 99%

Section: Figure 1 Cross-section Of a Soleus Muscle From A 25-day-old Ratmentioning

confidence: 99%

“…Skeletal muscle contains three different types of triacylglycerol lipases [2,3]. One is a lysosomal lipase with an in itro pH optimum of 5.…”

Section: Figure 1 Cross-section Of a Soleus Muscle From A 25-day-old Ratmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Expression of hormone-sensitive lipase and its regulation by adrenaline in skeletal muscle

Langfort¹,

Ploug²,

Ihlemann³

et al. 1999

Biochem. J.

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“…LCFAs are a key oxidizable substrate for skeletal muscle (see Ref. 7), and because of its mass (40% of body weight) and highly variable metabolic rate, skeletal muscle is a principal site for the removal of LCFAs from the circulation. Moreover, LCFA uptake and metabolism can be increased rapidly in contracting muscle (16,17).…”

mentioning

confidence: 99%

Acute Regulation of Fatty Acid Uptake Involves the Cellular Redistribution of Fatty Acid Translocase

Bonen¹,

Luiken²,

Arumugam³

et al. 2000

Journal of Biological Chemistry

320

351

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We used muscle contraction, which increases fatty acid oxidation, as a model to determine whether fatty acid transport is acutely regulated by fatty acid translocase (FAT/CD36). Palmitate uptake by giant vesicles, obtained from skeletal muscle, was increased by muscle contraction. Kinetic studies indicated that muscle contraction increased V max , but K m remained unaltered. Sulfo-N-succinimidyl oleate, a specific inhibitor of FAT/ CD36, fully blocked the contraction-induced increase in palmitate uptake. In giant vesicles from contracting muscles, plasma membrane FAT/CD36 was also increased in parallel with the increase in long chain fatty acid uptake. Further studies showed that like GLUT-4, FAT/CD36 is located in both the plasma membrane and intracellularly (endosomally). With muscle contraction, FAT/CD36 at the surface of the muscle was increased, while concomitantly, FAT/CD36 in the intracellular pool was reduced. Similar responses were observed for GLUT-4. We conclude that fatty acid uptake is subject to short term regulation by muscle contraction and involves the translocation of FAT/CD36 from intracellular stores to the sarcolemma, analogous to the regulation of glucose uptake by GLUT-4.

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