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跨内皮运输的建模

Modeling of transendothelial transport.

作者信息

Bassingthwaighte J B, Sparks H V, Chan I S, DeWitt D F, Gorman M W

出版信息

Fed Proc. 1985 Jul;44(10):2623-6.

PMID:4007183
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3137457/
Abstract

Capillary-tissue exchange of inert hydrophilic solutes in the heart occurs through aqueous channels, the clefts between endothelial cells (ECs). For adenosine (and other vasoactive agents and substrates), there is also transport across the plasmalemma of the ECs. The multiple-indicator dilution technique comparing tracer adenosine flux with that of 9-beta-D-arabinofuranosylhypoxanthine (an analog that is not transported by the nucleoside carrier) can be used to estimate the conductance of the facilitated transport mechanism, which is equivalent to a permeability-surface area product. Analysis by using a model of exchanges among capillary, EC, interstitium, and myocardial cells suggests that the abluminal surface of the ECs is also highly permeable to adenosine. The inference is that ECs may be an important component of a system for adenosine exchange and regulation in the heart.

摘要

惰性亲水性溶质在心脏中的毛细血管-组织交换是通过水通道,即内皮细胞(ECs)之间的裂隙进行的。对于腺苷(以及其他血管活性物质和底物),也存在跨内皮细胞质膜的转运。将示踪腺苷通量与9-β-D-阿拉伯呋喃糖基次黄嘌呤(一种不被核苷载体转运的类似物)的通量进行比较的多指示剂稀释技术,可用于估计易化转运机制的电导率,这相当于通透表面积乘积。使用毛细血管、内皮细胞、间质和心肌细胞之间交换模型进行的分析表明,内皮细胞的管腔外表面对腺苷也具有高度通透性。由此推断,内皮细胞可能是心脏中腺苷交换和调节系统的重要组成部分。

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本文引用的文献

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Plasma-soluble marker for intraorgan regional flows.用于器官内区域血流的血浆可溶性标志物。
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