Weinstein A M, Stephenson J L
Biophys J. 1981 Jul;35(1):167-91. doi: 10.1016/S0006-3495(81)84781-9.
A standing gradient model of the lateral intercellular space is presented which includes a basement membrane of finite solute permeability. The solution to the model equations is estimated analytically using the "isotonic convection approximation" of Segel. In the case of solute pumps uniformly distributed along the length of the channel, the achievement of isotonic transport depends only on the water permeability of the cell membranes. The ability of the model to transport water against an adverse osmotic gradient is the sum of two terms: The first term is simply that for a well-stirred compartment model and reflects basement membrane solute permeability. The second term measures the added strength due to diffusion limitation within the interspace. It is observed, however, that the ability for uphill water transport due to diffusion limitation is diminished by high cell membrane water permeability. For physiologically relevant parameters, it appears that the high water permeability required for isotonic transport renders the contribution of the standing gradient relatively ineffective in transport against an osmotic gradient. Finally, when the model transports both isotonically and against a gradient, it is shown that substantial intraepithelial solute polarization effects are unavoidable. Thus, the measured epithelial water permeability will grossly underestimate the water permeability of the cell membranes. The accuracy of the analytic approximation is demonstrated by numerical solution of the complete model equations.
提出了一种侧向细胞间隙的驻立梯度模型,该模型包括具有有限溶质通透性的基底膜。使用塞格尔的“等渗对流近似”对模型方程的解进行了分析估计。在溶质泵沿通道长度均匀分布的情况下,等渗转运的实现仅取决于细胞膜的水通透性。该模型逆着不利的渗透梯度转运水的能力由两项组成:第一项简单来说就是对于充分搅拌的隔室模型而言的能力,反映了基底膜溶质通透性。第二项衡量了由于间隙内扩散限制而增加的强度。然而,可以观察到,由于细胞膜水通透性高,扩散限制导致的向上水转运能力会降低。对于生理相关参数,似乎等渗转运所需的高水通透性使得驻立梯度在逆渗透梯度转运中的贡献相对无效。最后,当模型进行等渗和逆梯度转运时,结果表明上皮内溶质极化效应不可避免。因此,测量得到的上皮水通透性将严重低估细胞膜的水通透性。通过完整模型方程的数值解证明了分析近似的准确性。