Gabriel H, Urhausen A, Kindermann W
Institute of Sports and Performance Medicine, University of Saarland, Federal Republic of Germany.
Eur J Appl Physiol Occup Physiol. 1991;63(6):449-57. doi: 10.1007/BF00868077.
Seventeen healthy cyclists [age 20.8 (SD 4.8) years; body mass 68.3 (SD 7.7) kg; body fat, 11.4 (SD 2.6) %; height, 179.1 (SD 5.9) cm; VO2max, 60.9 (SD 7.4) ml.kg-1.min-1] conducted intensive endurance exercise to exhaustion (stress test, ST) on a cycle ergometer at 110% of their individual anaerobic threshold [Than,individual; exercise intensity, 3.97 (SD 0.6) W.kg-1; duration, 23.9 (SD 8.3) min; maximal lactate concentration, 7.39 (SD 2.59) mmol.l-1]. The distribution of leucocyte subpopulations was measured flow cytometrically: before, immediately after (0), 5 (+5), 30 (+30) and 60 (+60) min after ST. The lymphocytes (0 min) and granulocytes (+60 min) were mainly responsible for the increase of leucocytes. Lymphocytes were significantly lower at +30 and +60 min than before. CD3-CD16/CD56+ (+480%) and CD8(+)-lymphocytes (+211%) increased at 0 min more than the other lymphocyte subpopulations (CD(3+)-cells, +100%; CD(4+)-cells, +56%; CD(19+)-cells, +64%). CD3-CD16/CD(56+)- and CD(8+)-cells also were mainly responsible for the decreased values of lymphocytes at +30 min and +60 min compared to before. At 0 min naive CD(8+)-cells (CD45RA+, CD45RO-) increased more than memory CD(8+)-cells (CD45RA-, CD45RO+). Changes of naive and memory CD(4+)-cells did not differ. All lymphocyte subpopulations, in particular CD(8+)- and CD3-CD16/CD(56+)-cells, decreased rapidly between 0 min and 5 min. We conclude that an intensive endurance exercise to exhaustion causes a mobilisation of lymphocytes, especially of natural killer cells (CD3-CD16/CD56+) and naive, unprimed CD(8+)-cells (CD45RA+, CD45RO-) which may be transported to injured muscles.(ABSTRACT TRUNCATED AT 250 WORDS)
17名健康的自行车运动员[年龄20.8(标准差4.8)岁;体重68.3(标准差7.7)千克;体脂11.4(标准差2.6)%;身高179.1(标准差5.9)厘米;最大摄氧量60.9(标准差7.4)毫升·千克⁻¹·分钟⁻¹]在自行车测力计上进行高强度耐力运动直至力竭(应激试验,ST),运动强度为其个体无氧阈值的110%[无氧阈值,个体;运动强度3.97(标准差0.6)瓦·千克⁻¹;持续时间23.9(标准差8.3)分钟;最大乳酸浓度7.39(标准差2.59)毫摩尔·升⁻¹]。采用流式细胞术测量白细胞亚群的分布:运动前、运动后即刻(0分钟)、运动后5分钟(+5分钟)、30分钟(+30分钟)和60分钟(+60分钟)。淋巴细胞(0分钟)和粒细胞(+60分钟)是白细胞增加的主要原因。淋巴细胞在运动后30分钟和60分钟时显著低于运动前。CD3⁻CD16/CD56⁺(增加480%)和CD8⁺淋巴细胞(增加211%)在0分钟时的增加幅度大于其他淋巴细胞亚群(CD3⁺细胞,增加100%;CD4⁺细胞,增加56%;CD19⁺细胞,增加64%)。与运动前相比,CD3⁻CD16/CD56⁺细胞和CD8⁺细胞也是运动后30分钟和60分钟时淋巴细胞数量减少的主要原因。在0分钟时,初始CD8⁺细胞(CD45RA⁺,CD45RO⁻)的增加幅度大于记忆性CD8⁺细胞(CD45RA⁻,CD45RO⁺)。初始和记忆性CD4⁺细胞的变化无差异。所有淋巴细胞亚群,尤其是CD8⁺细胞和CD3⁻CD16/CD56⁺细胞,在0分钟至5分钟之间迅速减少。我们得出结论,高强度耐力运动直至力竭会导致淋巴细胞动员,尤其是自然杀伤细胞(CD3⁻CD16/CD56⁺)和初始未致敏的CD8⁺细胞(CD45RA⁺,CD45RO⁻),这些细胞可能被转运至受损肌肉。(摘要截断于250字)
