红细胞膜和扩散边界层对人红细胞摄氧速率的影响。
The effect of the red cell membrane and a diffusion boundary layer on the rate of oxygen uptake by human erythrocytes.
作者信息
Huxley V H, Kutchai H
出版信息
J Physiol. 1981 Jul;316:75-83. doi: 10.1113/jphysiol.1981.sp013773.
Abstract
- This paper deals with the contributions of the red cell membrane and an external diffusion boundary layer (;unstirred layer') to the resistance to O(2) entry into the red cell. Bovine serum albumin (BSA) was added to the extracellular fluid to enhance the effect of the diffusion boundary layer by diminishing both the solubility and the diffusivity of O(2). The rate of O(2) uptake by human red cells at various extracellular BSA concentrations was determined with a stopped-flow rapid-reaction apparatus.2. The initial rate of O(2) uptake by the red cells was directly proportional to the diffusion coefficient of O(2) in the extracellular fluid.3. If the diffusion boundary layer and the plasma membrane are considered as resistors in series, we estimate that 82-100% of the total resistance to O(2) entering the cell is due to the diffusion boundary layer. Our best estimate is that 95% of the resistance resides in the diffusion boundary layer.4. Our best estimate of the O(2) permeability of the red cell membrane is 3.15 x 10(-6) m-mole/(cm(2) sec mmHg). With this permeability the membrane would account for only 5% of the total resistance to O(2) entering the cell. Partly because the membrane O(2) diffusion resistance is a small fraction of the total resistance our estimate of the membrane resistance has a large standard deviation. Taking our estimate of the membrane resistance plus and minus its standard deviation we find that the membrane may account for 0-18% of the total resistance to O(2) entering the cell.5. The effective thickness of the diffusion boundary layer immediately after mixing is about 1.93 mum according to our analysis.
摘要
本文探讨红细胞膜和外部扩散边界层(“静止层”)对氧气进入红细胞的阻力所起的作用。向细胞外液中添加牛血清白蛋白(BSA),通过降低氧气的溶解度和扩散率来增强扩散边界层的作用。使用停流快速反应装置测定了不同细胞外BSA浓度下人红细胞对氧气的摄取速率。
红细胞对氧气的初始摄取速率与氧气在细胞外液中的扩散系数成正比。
如果将扩散边界层和质膜视为串联的电阻,我们估计氧气进入细胞的总阻力中82 - 100%是由扩散边界层造成的。我们的最佳估计是95%的阻力存在于扩散边界层。
我们对红细胞膜氧气渗透率的最佳估计是3.15×10⁻⁶毫摩尔/(平方厘米·秒·毫米汞柱)。以此渗透率计算,膜对氧气进入细胞的总阻力仅占5%。部分由于膜的氧气扩散阻力在总阻力中占比很小,我们对膜阻力的估计有较大的标准差。取我们对膜阻力的估计值加上和减去其标准差,我们发现膜对氧气进入细胞的总阻力可能占0 - 18%。
根据我们的分析,混合后立即形成的扩散边界层的有效厚度约为1.93微米。
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