Campbell C B, Marsh D R, Spriet L L
School of Human Biology, University of Guelph, Ontario, Canada.
J Appl Physiol (1985). 1991 Apr;70(4):1787-95. doi: 10.1152/jappl.1991.70.4.1787.
The effect of age on skeletal muscle anaerobic energy metabolism was investigated in adult (11 mo) and aged (25 mo) Fischer 344 rats. Hindlimb skeletal muscles innervated by the sciatic nerve were stimulated to contract with trains of supramaximal impulses (100 ms, 80 Hz) at a train rate of 1 Hz for 60 s, with an occluded circulation. Soleus, plantaris, and red and white gastrocnemius (WG) were sampled from control and stimulated limbs. All muscle masses were reduced with age (9-13%). Peak isometric tensions, normalized per gram of wet muscle, were lower throughout the stimulation in the aged animals (28%). The potential for anaerobic ATP provision was unaltered with age in all muscles, because resting high-energy phosphates and glycogen contents were similar to adult values. Anaerobic ATP provision during stimulation was unaltered by aging in soleus, plantaris, and red gastrocnemius muscles. In the WG, containing mainly fast glycolytic (FG) fibers, ATP and phosphocreatine contents were depleted less in aged muscle. In situ glycogenolysis and glycolysis were 90.0 +/- 4.8 and 69.3 +/- 2.6 mumol/g dry muscle (dm) in adult WG and reduced to 62.3 +/- 6.9 and 51.5 +/- 5.5 mumol/g dm, respectively, in aged WG. Consequently, total anaerobic ATP provision was lower in aged WG (224.5 +/- 20.9 mumol/g dm) vs. adult (292.6 +/- 7.6 mumol/g dm) WG muscle. In summary, the decreased tetanic tension production in aged animals was associated with a decreased anaerobic energy production in FG fibers. Reduced high-energy phosphate use and a greater energy charge potential after stimulation suggested that the energy demand was reduced in aged FG fibers.(ABSTRACT TRUNCATED AT 250 WORDS)
研究了年龄对成年(11个月)和老年(25个月)Fischer 344大鼠骨骼肌无氧能量代谢的影响。在坐骨神经支配的后肢骨骼肌上,以1Hz的串刺激频率给予一系列超强刺激脉冲(100ms,80Hz),持续60s,同时阻断血液循环。从对照肢体和受刺激肢体采集比目鱼肌、跖肌以及红、白腓肠肌(WG)。所有肌肉质量均随年龄增长而降低(9 - 13%)。按每克湿肌肉标准化后的峰值等长张力,在老年动物整个刺激过程中均较低(28%)。所有肌肉中无氧ATP供应潜力并未随年龄改变,因为静息时高能磷酸盐和糖原含量与成年值相似。比目鱼肌、跖肌和红腓肠肌在刺激过程中的无氧ATP供应不受衰老影响。在主要含快糖酵解(FG)纤维的WG中,老年肌肉中ATP和磷酸肌酸含量消耗较少。成年WG中原位糖原分解和糖酵解分别为90.0±4.8和69.3±2.6μmol/g干肌肉(dm),老年WG中则分别降至62.3±6.9和51.5±5.5μmol/g dm。因此,老年WG中总的无氧ATP供应(224.5±20.9μmol/g dm)低于成年(292.6±7.6μmol/g dm)WG肌肉。总之,老年动物中强直张力产生的降低与FG纤维中无氧能量产生的减少有关。刺激后高能磷酸盐使用减少以及能量电荷潜力增加表明老年FG纤维中的能量需求降低。(摘要截选至250词)
