- 作者: Chia-Hau Chou; Yin-Lan Tsai; Chien-Wen Hou; Hsing-Hao Lee; Wei-Hsiang Chang; Tzi-Wen Lin; Tung-Hsiung Hsu; Yi-Jen Huang; Chia-Hua Kuo
- 作者服務機構: 1 Center for General Education, National Chi-Nan University, Nantou, Taiwan, ROC; ; 2 Department of Athletic Training, National College of Physical Education and Sports, Taoyuan, Taiwan, ROC; ; 3 Laboratory of Exercise Biochemistry, Taipei Physical Education College, 5 Dun-Hua N. Rd, Taipei, Taiwan 105, ROC; 4 Department of Physical Education, Soochow University, Taipei, Taiwan, ROC
- 中文摘要: --
- 英文摘要: To elucidate the role of muscle glycogen storage on regulation of GLUT4 protein expression and whole-body glucose tolerance, muscle glycogen level was manipulated by exercise and insulin administration. Sixty Sprague-Dawley rats were evenly separated into three groups: control (CON), immediately after exercise (EXO), and 16 h after exercise (EX16). Rats from each group were further divided into two groups: saline- and insulin-injected. The 2-day exercise protocol consisted of 2 bouts of 3-h swimming with 45-min rest for each day, which effectively depleted glycogen in both red gastrocnemius (RG) and plantaris muscles. EXO rats were sacrificed immediately after the last bout of exercise on second day. CON and EX16 rats were intubated with 1 g/kg glucose solution following exercise and recovery for 16 h before muscle tissue collection. Insulin (0.5 μU/kg) or saline was injected daily at the time when glucose was intubated. Insulin injection elevated muscle glycogen levels substantially in both muscles above saline-injected group at CON and EX16. With previous day insulin injection, EXO preserved greater amount of postexercise glycogen above their saline-injected control. In the saline-injected rats, EX16 significantly increased GLUT4 protein level above CON, concurrent with muscle glycogen supercompensation. Insulin injection for EX16 rats significantly enhanced muscle glycogen level above their saline-injected control, but the increases in muscle GLUT4 protein and whole-body glucose tolerance were attenuated. In conclusion, the new finding of the study was that glycogen overload by postexercise insulin administration significantly abolished the exercise-induced increases in GLUT4 protein and glucose tolerance.
- 中文關鍵字: --
- 英文關鍵字: athletes, glucose tolerance, glucose transporter, glycogen supercompensation, insulin sensitivity