全身性低氧对犬骨骼肌间质及血液中腺苷、AMP、ADP和ATP的影响。
The effect of systemic hypoxia on interstitial and blood adenosine, AMP, ADP and ATP in dog skeletal muscle.
作者信息
Mo F M, Ballard H J
机构信息
Department of Physiology, and Institute of Cardiovascular Science and Medicine, University of Hong Kong, Hong Kong.
出版信息
J Physiol. 2001 Oct 15;536(Pt 2):593-603. doi: 10.1111/j.1469-7793.2001.0593c.xd.
Abstract
- We investigated the effect of moderate systemic hypoxia on the arterial, venous and interstitial concentration of adenosine and adenine nucleotides in the neurally and vascularly isolated, constant-flow perfused gracilis muscles of anaesthetized dogs. 2. Systemic hypoxia reduced arterial PO2 from 129 to 28 mmHg, venous PO2 from 63 to 23 mmHg, arterial pH from 7.43 to 7.36 and venous pH from 7.38 to 7.32. Neither arterial nor venous PCO2 were changed. Arterial perfusion pressure remained at 109 +/- 8 mmHg for the first 5 min of hypoxia, then increased to 131 +/- 11 mmHg by 9 min, and then decreased again throughout the rest of the hypoxic period. 3. Arterial adenosine (427 +/- 98 nM) did not change during hypoxia, but venous adenosine increased from 350 +/- 52 to 518 +/- 107 nM. Interstitial adenosine concentration did not increase (339 +/- 154 nM in normoxia and 262 +/- 97 nM in hypoxia). Neither arterial nor venous nor interstitial concentrations of adenine nucleotides changed significantly in hypoxia. 4. Interstitial adenosine, AMP, ADP and ATP increased from 194 +/- 40, 351 +/- 19, 52 +/- 7 and 113 +/- 36 to 764 +/- 140, 793 +/- 119, 403 +/- 67 and 574 +/- 122 nM, respectively, during 2 Hz muscle contractions. 5. Adenosine, AMP, ADP and ATP infused into the arterial blood did not elevate the interstitial concentration until the arterial concentration exceeded 10 microM. 6. We conclude that the increased adenosine in skeletal muscle during systemic hypoxia is formed by the vascular tissue or the blood cells, and that adenosine is formed intracellularly by these tissues. On the other hand, adenosine formation takes place extracellularly in the interstitial space during muscle contractions.
摘要
- 我们研究了中度全身性低氧对麻醉犬神经和血管隔离、恒流灌注的股薄肌中腺苷及腺嘌呤核苷酸的动脉、静脉和组织间浓度的影响。2. 全身性低氧使动脉血氧分压从129 mmHg降至28 mmHg,静脉血氧分压从63 mmHg降至23 mmHg,动脉血pH从7.43降至7.36,静脉血pH从7.38降至7.32。动脉血和静脉血二氧化碳分压均未改变。低氧最初5分钟动脉灌注压维持在109±8 mmHg,至9分钟时升至131±11 mmHg,在低氧期剩余时间再次下降。3. 低氧期间动脉腺苷(427±98 nM)未改变,但静脉腺苷从350±52 nM升至518±107 nM。组织间腺苷浓度未升高(常氧时为339±154 nM,低氧时为262±97 nM)。低氧时动脉、静脉及组织间腺嘌呤核苷酸浓度均无显著变化。4. 在2 Hz肌肉收缩期间,组织间腺苷、AMP、ADP和ATP分别从194±40、351±19、52±7和113±36 nM升至764±140、793±119、403±67和574±122 nM。5. 注入动脉血的腺苷、AMP、ADP和ATP在动脉浓度超过10 μM时才会升高组织间浓度。6. 我们得出结论,全身性低氧期间骨骼肌中腺苷增加是由血管组织或血细胞形成的,且这些组织在细胞内形成腺苷。另一方面,肌肉收缩期间腺苷在组织间隙的细胞外形成。
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