Van Hall Gerrit, Bülow Jens, Sacchetti Massimo, Al Mulla Nariman, Lyngso Dorthe, Simonsen Lene
The Copenhagen Muscle Research Centre, University Hospital, Copenhagen, Denmark.
J Physiol. 2002 Sep 15;543(Pt 3):1033-46. doi: 10.1113/jphysiol.2002.022392.
This study was conducted to investigate the role of splanchnic and adipose tissue in the regulation of fatty acid (FA) metabolism at rest, during 1 h of semi-recumbent cycle exercise at 60 % of maximal power output and 3 h of recovery. In six post-absorptive healthy volunteers catheters were placed in a radial artery, hepatic vein and a subcutaneous vein on the anterior abdominal wall. Whole body, and regional splanchnic and adipose tissue FA metabolism were measured by a constant infusion of the stable isotopes [U-(13)C]palmitate and [(2)H(5)]glycerol and according to Fick's principle. The whole body rate of extracellular FA reesterification was similar at rest and during exercise (approximately 290 micromol min(-1)) and increased during recovery to a plateau of 390 micromol min(-1). FA and triacylglycerol (TAG) uptake by adipose tissue was undetectable, but a constant but small glycerol uptake of approximately 25 nmol (100 g)(-1) min(-1) was observed. From the FA taken up by the splanchnic area, 13 % was oxidized, 5-11 % converted to ketone bodies, and approximately 35 % incorporated in TAG released both at rest and at the third hour of recovery from exercise. Splanchnic FA reesterification could account for 51 % and 58 % of whole body extracellular FA reesterification, of which half was accounted for by TAG released from the splanchnic area, at rest and in recovery, respectively. In conclusion, in the post-absorptive state, adipose tissue contributes very little to extracellular FA reesterification and splanchnic reesterification can account for 50-60 %, implying that FA reesterification in other tissues is important. The extracellular FA reesterification rate does not change with exercise but is higher during recovery. Furthermore, the uptake of glycerol by adipose tissue indicates that adipose tissue can metabolize glycerol.
本研究旨在探讨内脏和脂肪组织在静息状态、最大功率输出60%的半卧位自行车运动1小时及恢复3小时期间对脂肪酸(FA)代谢的调节作用。在6名吸收后状态的健康志愿者中,将导管分别置于桡动脉、肝静脉和前腹壁皮下静脉。通过持续输注稳定同位素[U-(13)C]棕榈酸酯和[(2)H(5)]甘油,并根据菲克原理测量全身以及局部内脏和脂肪组织的FA代谢。静息和运动期间全身细胞外FA再酯化率相似(约290微摩尔·分钟(-1)),恢复期间增加至390微摩尔·分钟(-1)的平台期。脂肪组织对FA和三酰甘油(TAG)的摄取无法检测到,但观察到甘油的持续少量摄取,约为25纳摩尔·(100克)(-1)·分钟(-1)。在内脏区域摄取的FA中,13%被氧化,5%-11%转化为酮体,约35%在静息和运动恢复的第三小时掺入释放的TAG中。内脏FA再酯化分别占静息和恢复时全身细胞外FA再酯化的51%和58%,其中一半由内脏区域释放的TAG所致。总之,在吸收后状态下,脂肪组织对细胞外FA再酯化的贡献很小,内脏再酯化可占50%-60%,这意味着其他组织中的FA再酯化很重要。细胞外FA再酯化率不随运动而变化,但在恢复期间较高。此外,脂肪组织对甘油的摄取表明脂肪组织能够代谢甘油。