收缩的人体骨骼肌中白细胞介素-6的产生可解释运动诱导的血浆白细胞介素-6增加。
Production of interleukin-6 in contracting human skeletal muscles can account for the exercise-induced increase in plasma interleukin-6.
作者信息
Steensberg A, van Hall G, Osada T, Sacchetti M, Saltin B, Klarlund Pedersen B
机构信息
The Copenhagen Muscle Research Centre and The Department of Infectious Diseases, Rigshospitalet, University of Copenhagen, Copenhagen, Denmark.
出版信息
J Physiol. 2000 Nov 15;529 Pt 1(Pt 1):237-42. doi: 10.1111/j.1469-7793.2000.00237.x.
Abstract
- Plasma interleukin (IL)-6 concentration is increased with exercise and it has been demonstrated that contracting muscles can produce IL-The question addressed in the present study was whether the IL-6 production by contracting skeletal muscle is of such a magnitude that it can account for the IL-6 accumulating in the blood. 2. This was studied in six healthy males, who performed one-legged dynamic knee extensor exercise for 5 h at 25 W, which represented 40% of peak power output (Wmax). Arterial-femoral venous (a-fv) differences over the exercising and the resting leg were obtained before and every hour during the exercise. Leg blood flow was measured in parallel by the ultrasound Doppler technique. IL-6 was measured by enzyme-linked immunosorbent assay (ELISA). 3. Arterial plasma concentrations for IL-6 increased 19-fold compared to rest. The a-fv difference for IL-6 over the exercising leg followed the same pattern as did the net IL-6 release. Over the resting leg, there was no significant a-fv difference or net IL-6 release. The work was produced by 2.5 kg of active muscle, which means that during the last 2 h of exercise, the median IL-6 production was 6.8 ng min-1 (kg active muscle)-1 (range, 3.96-9.69 ng min-1 kg-1). 4. The net IL-6 release from the muscle over the last 2 h of exercise was 17-fold higher than the elevation in arterial IL-6 concentration and at 5 h of exercise the net release during 1 min was half of the IL-6 content in the plasma. This indicates a very high turnover of IL-6 during muscular exercise. We suggest that IL-6 produced by skeletal contracting muscle contributes to the maintenance of glucose homeostasis during prolonged exercise.
摘要
- 血浆白细胞介素(IL)-6浓度会随着运动而升高,并且已经证实收缩的肌肉能够产生IL-6。本研究探讨的问题是,收缩的骨骼肌产生IL-6的量是否足以解释血液中IL-6的积累。2. 对6名健康男性进行了此项研究,他们以25瓦的功率进行单腿动态伸膝运动5小时,该功率相当于峰值功率输出(Wmax)的40%。在运动前以及运动期间每小时测量运动腿和静息腿的动脉-股静脉(a-fv)差值。同时采用超声多普勒技术测量腿部血流量。通过酶联免疫吸附测定(ELISA)法检测IL-6。3. 与静息时相比,动脉血浆中IL-6浓度增加了19倍。运动腿上IL-6的a-fv差值与IL-6的净释放遵循相同模式。在静息腿上,a-fv差值和IL-6净释放均无显著变化。运动由2.5千克活跃肌肉完成,这意味着在运动的最后2小时,IL-6的中位产生量为6.8纳克·分钟-1·(千克活跃肌肉)-1(范围为3.96 - 9.69纳克·分钟-1·千克-1)。4. 在运动的最后2小时,肌肉的IL-6净释放比动脉IL-6浓度的升高高17倍,并且在运动5小时时,1分钟内的净释放量是血浆中IL-6含量的一半。这表明在肌肉运动期间IL-6的周转非常高。我们认为,骨骼肌收缩产生的IL-6有助于在长时间运动期间维持葡萄糖稳态。
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