Trappe Todd, Williams Rick, Carrithers John, Raue Ulrika, Esmarck Birgitte, Kjaer Michael, Hickner Robert
Nutrition, Metabolism, and Exercise Laboratory, University of Arkansas for Medical Sciences, 4301 W. Markham, Slot 806, Little Rock, AR, USA.
J Physiol. 2004 Feb 1;554(Pt 3):803-13. doi: 10.1113/jphysiol.2003.051755. Epub 2003 Nov 7.
We combined the interstitial sampling method of microdialysis with the natural tracer qualities (i.e. non-recyclability) of the amino acid 3-methylhistidine (3MH) to uniquely study in vivo degradation of the two most abundant skeletal muscle proteins, myosin and actin. Interstitial 3MH concentration was measured before and for 24 h following a single bout of resistance exercise in eight young (27 +/- 2 years) and eight old (75 +/- 4 years) men. The exercise bout consisted of four exercises (3 sets of 8 repetitions at 80% one-repetition maximum (1RM) per exercise) emphasizing the quadriceps. Interstitial 3MH concentration was calculated using the internal reference method from microdialysate samples that were obtained from two microdialysis probes placed in the vastus lateralis. Resting interstitial 3MH concentration was 44% higher (P < 0.05) in the old (6.16 +/- 0.56 nmol ml(-1)) as compared with the young (4.28 +/- 0.27 nmol ml(-1)). Interstitial 3MH was not different (P > 0.05) from preexercise at any time point within the 24 h following exercise in both the young and the old. Leg arteriovenous exchange measurements in a separate group of young subjects also showed no increase in 3MH release during the 4 h following a resistance exercise bout compared with a non-exercised control leg (control leg: -28 +/- 6, exercise leg: -28 +/- 11 nmol min(-1)). These results suggest that myosin and actin proteolysis are not increased in the first 24 h following a standard bout of resistance exercise, and this response is not altered with ageing. The higher interstitial 3MH concentration in the old suggests an increased proteolysis of the two main contractile proteins in the rested and fasted state, which is consistent with a decrease in muscle mass with ageing. Microdialysis is an appropriate methodology for use in ageing individuals and is compatible with high-intensity resistance exercise.
我们将微透析的间质采样方法与氨基酸3 - 甲基组氨酸(3MH)的天然示踪特性(即不可回收性)相结合,以独特地研究体内两种最丰富的骨骼肌蛋白——肌球蛋白和肌动蛋白的降解情况。在八名年轻男性(27±2岁)和八名老年男性(75±4岁)进行单次抗阻运动之前及之后24小时,测量其间质3MH浓度。运动组包括四项运动(每项运动以80%的一次重复最大值(1RM)进行3组,每组8次重复),重点锻炼股四头肌。间质3MH浓度通过内部参考法,根据从置于股外侧肌的两个微透析探针获取的微透析液样本进行计算。与年轻男性(4.28±0.27 nmol ml⁻¹)相比,老年男性(6.16±0.56 nmol ml⁻¹)静息时的间质3MH浓度高出44%(P<0.05)。在年轻和老年人群中,运动后24小时内的任何时间点,间质3MH与运动前相比均无差异(P>0.05)。在另一组年轻受试者中进行的腿部动静脉交换测量也显示,与未运动的对照腿相比,抗阻运动组在运动后4小时内3MH释放量没有增加(对照腿:-28±6,运动腿:-28±11 nmol min⁻¹)。这些结果表明,在标准的抗阻运动后24小时内,肌球蛋白和肌动蛋白的蛋白水解作用没有增加,且这种反应不会因衰老而改变。老年人群中较高的间质3MH浓度表明,在静息和禁食状态下,两种主要收缩蛋白的蛋白水解作用增强,这与随着年龄增长肌肉质量下降相一致。微透析是一种适用于老年个体的方法,并且与高强度抗阻运动兼容。