离体灌注大鼠肝脏中的甲状腺产热作用:钠钾主动转运的次要作用
Thyroid calorigenesis in isolated, perfused rat liver: minor role of active sodium-potassium transport.
作者信息
Folke M, Sestoft L
出版信息
J Physiol. 1977 Jul;269(2):407-19. doi: 10.1113/jphysiol.1977.sp011909.
Abstract
- The effects of ouabain on hepatic oxygen uptake, cell membrane potential, and Na-K transport were examined at 37 degrees C during non-recirculating perfusion of isolated livers from fasted normal rats and rats treated with triiodothyronine (T3). The perfusate was Krebs-Ringer bicarbonate buffer containing albumin and bovine erythrocytes. 2. Treatment with T3 increased the rate of hepatic oxygen uptake by 30% (i.e. by 0-83 (micromole/min) per gram liver). 3. After shifting to perfusate containing 2-5 mM ouabain, a 4-5 mV depolarization and maximal rates of net hepatic K release and Na uptake occurred within 2 min in both thyroid states. These changes were not accompanied by any significant change in the rates of hepatic oxygen uptake. 4. T3-treatment increased the maximal, post-ouabain net flux of K by 29% (i.e. by 0-52 (muequiv/min) per gram liver). The T3-indlced increase in the net flux of Na (19%) did not achieve statistical significance. 5. In either thyroid state, the observed passive fluxes of Na and K were calculated to be balanced by active vluxes at the expense of 5-6% of the observed rate of hepatic oxygen uptake. 6. The results indicate that hyperthyroidism may enhance the rate of hepatic Na-K transport, but the energy expenditure due to this process appears to be too small to make any important contribution to thyroid calorigenesis in perfused rat liver.
摘要
- 在37℃下,对禁食正常大鼠和经三碘甲状腺原氨酸(T3)处理的大鼠的离体肝脏进行非循环灌注时,研究了哇巴因对肝脏氧摄取、细胞膜电位和钠钾转运的影响。灌注液为含有白蛋白和牛红细胞的 Krebs-Ringer 碳酸氢盐缓冲液。2. T3处理使肝脏氧摄取率提高了30%(即每克肝脏每分钟增加0 - 83微摩尔)。3. 换成含有2 - 5 mM哇巴因的灌注液后,在两种甲状腺状态下,2分钟内均出现了4 - 5 mV的去极化以及肝脏钾净释放和钠摄取的最大速率。这些变化并未伴随肝脏氧摄取率的任何显著变化。4. T3处理使哇巴因作用后钾的最大净通量增加了29%(即每克肝脏每分钟增加0 - 52微当量)。T3诱导的钠净通量增加(19%)未达到统计学显著性。5. 在任何一种甲状腺状态下,观察到的钠和钾的被动通量经计算可由主动通量平衡,代价是肝脏氧摄取率的5 - 6%。6. 结果表明,甲状腺功能亢进可能会提高肝脏钠钾转运速率,但该过程导致的能量消耗似乎过小,无法对灌注大鼠肝脏的甲状腺产热产生任何重要贡献。
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