Baker David J, Krause Daniel J, Howlett Richard A, Hepple Russell T
Faculty of Kinesiology, University of Calgary, 2500 University Drive NW, Calgary, Alberta, T2N 1N4, Canada.
Exp Physiol. 2006 May;91(3):581-9. doi: 10.1113/expphysiol.2005.032698. Epub 2006 Feb 9.
The purpose of the present experiments was to test the hypotheses that: (i) nitric oxide synthase (NOS) inhibition reduces the O2 cost of force development across a range of contractile demands; and (ii) this reduced O2 cost of force development would be reflected in a sparing of intramuscular higher energy phosphates. Rat distal hindlimb muscles were pump perfused in situ and electrically stimulated (200 ms trains with pulses at 100 Hz, each pulse 0.05 ms duration) for 1 min each at 15, 30 and 60 tetani min(-1) and for 2 min at 90 tetani min(-1) in three groups: 0.01 mM adenosine; 1 mM D-NAME and 0.01 mM adenosine (D-NAME); and 1 mM L-NAME and 0.01 mM adenosine (L-NAME). The gastrocnemius-plantaris-soleus muscle group was freeze clamped post-contractions for metabolite analyses. Force was 19% higher and oxygen uptake (VO2) was 20% lower with L-NAME versus adenosine, and there was a 35% reduction in VO2/time-integrated tension versus adenosine and 24% versus D-NAME that was independent of contraction frequency. L-NAME treatment produced a 33% sparing of muscle phosphocreatine (PCr), and intramuscular lactate was no different between groups. In contrast, D-NAME reduced force by 30%, VO2 by 29% and the O2 cost of force development by 15% compared with adenosine, but had no effect on the degree of intramuscular ATP and PCr depletion. These results show that NOS inhibition improved the metabolic efficiency of force development, either by improving the ATP yield for a given O2 consumption or by reducing the ATP cost of force development. In addition, these effects were independent of contraction frequency.
(i)一氧化氮合酶(NOS)抑制可降低一系列收缩需求下力量产生的氧气消耗;(ii)这种力量产生时降低的氧气消耗将表现为肌肉内高能磷酸盐的节省。大鼠后肢远端肌肉在原位进行泵灌注,并在三组中分别以15、30和60次强直/分钟(-1)的频率进行1分钟的电刺激(100Hz脉冲,每次脉冲持续时间0.05ms,200ms串),以及以90次强直/分钟(-1)的频率进行2分钟的电刺激:0.01mM腺苷;1mM D-硝基精氨酸甲酯(D-NAME)和0.01mM腺苷(D-NAME);以及1mM L-硝基精氨酸甲酯(L-NAME)和0.01mM腺苷(L-NAME)。收缩后,腓肠肌-比目鱼肌-跖肌组被冷冻钳夹以进行代谢物分析。与腺苷相比,L-NAME组的力量高19%,氧摄取(VO2)低20%,并且与腺苷相比,VO2/时间积分张力降低了35%,与D-NAME组相比降低了24%,且与收缩频率无关。L-NAME处理使肌肉磷酸肌酸(PCr)节省了33%,且组间肌肉内乳酸无差异。相比之下,与腺苷相比,D-NAME使力量降低了30%,VO2降低了29%,力量产生的氧气消耗降低了15%,但对肌肉内ATP和PCr的消耗程度没有影响。这些结果表明,NOS抑制通过提高给定氧气消耗下的ATP产量或降低力量产生的ATP成本,提高了力量产生的代谢效率。此外,这些效应与收缩频率无关。
