活体美西螈胆囊的液体运输以及细胞和间隙的尺寸

Fluid transport and the dimensions of cells and interspaces of living Necturus gallbladder.

作者信息

Spring K R, Hope A

出版信息

J Gen Physiol. 1979 Mar;73(3):287-305. doi: 10.1085/jgp.73.3.287.

DOI:10.1085/jgp.73.3.287

PMID:438773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2215164/

Abstract

The volume of the cells and lateral intercellular spaces were measured in living Necturus gallbladder epithelium. Under control conditions, the volume of the lateral spaces was 9% of the cell volume. Replacement of mucosal NaCl by sucrose or tetramethylammonium chloride (TMACl) caused intercellular spaces to collapse. During mucosal NaCl replacement, cell volume decreased to 79% of its control value. When NaCl was reintroduced into the mucosal bath, the intercellular spaces reopened and the cells returned to control volume. The NaCl active transport rate, calculated from the rate of cell volume decrease, was 266 pM/cm2.s, close to the observed rate of transepithelial salt transport. It was calculated from the decrease in cell volume that all of the intracellular NaCl was transported out of the cell during removal of mucosal NaCl. The flux of salt across the apical membrane, calculated from the rate of cell volume increase upon reintroducing mucosal NaCl, was 209 pM/cm2.s, in good agreement with estimates by other methods. The electrical resistance of the tight junctions was estimated to be 83.9% of the total tissue resistance in control conditions, suggesting that the lateral intercellular spaces normally offer only a small resistance to electrolyte movement.

摘要

对活体美西螈胆囊上皮细胞的体积和细胞间外侧间隙进行了测量。在对照条件下，细胞间外侧间隙的体积为细胞体积的9%。用蔗糖或四甲基氯化铵（TMACl）替代黏膜中的氯化钠会导致细胞间间隙塌陷。在黏膜氯化钠被替代的过程中，细胞体积降至其对照值的79%。当将氯化钠重新引入黏膜浴中时，细胞间间隙重新打开，细胞恢复到对照体积。根据细胞体积减少的速率计算出的氯化钠主动转运速率为266皮摩尔/平方厘米·秒，接近观察到的跨上皮盐转运速率。根据细胞体积的减少计算得出，在去除黏膜氯化钠的过程中，所有细胞内的氯化钠都被转运出了细胞。根据重新引入黏膜氯化钠后细胞体积增加的速率计算出的跨顶端膜的盐通量为209皮摩尔/平方厘米·秒，与其他方法的估计结果吻合良好。在对照条件下，紧密连接的电阻估计占总组织电阻的83.9%，这表明细胞间外侧间隙通常对电解质移动仅提供很小的阻力。

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COUPLED TRANSPORT OF SOLUTE AND WATER ACROSS RABBIT GALLBLADDER EPITHELIUM.溶质和水通过兔胆囊上皮的耦合转运

J Clin Invest. 1964 Dec;43(12):2249-65. doi: 10.1172/JCI105099.

NATURE OF SHUNT PATH AND ACTIVE SODIUM TRANSPORT PATH THROUGH FROG SKIN EPITHELIUM.通过蛙皮上皮的分流途径和活性钠转运途径的性质。

Acta Physiol Scand. 1964 Aug;61:484-504.

The reabsorptive function of the gall-bladder.胆囊的重吸收功能。

J Physiol. 1962 May;161(3):442-73. doi: 10.1113/jphysiol.1962.sp006898.

Standing-gradient osmotic flow. A mechanism for coupling of water and solute transport in epithelia.直立梯度渗透流。上皮细胞中水和溶质运输偶联的一种机制。

J Gen Physiol. 1967 Sep;50(8):2061-83. doi: 10.1085/jgp.50.8.2061.

The ultrastructural route of fluid transport in rabbit gall bladder.兔胆囊中液体运输的超微结构途径。

J Gen Physiol. 1967 Sep;50(8):2031-60. doi: 10.1085/jgp.50.8.2031.

Some morphological aspects of active sodium transport. The epithelium of the frog skin.主动钠转运的一些形态学方面。蛙皮上皮。

J Cell Biol. 1968 Mar;36(3):625-38. doi: 10.1083/jcb.36.3.625.

Absence of dilated lateral intercellular spaces in fluid-transporting frog gallbladder epithelium. Direct microscopy observations.液体运输型蛙胆囊上皮细胞中不存在扩张的细胞间外侧间隙。直接显微镜观察。

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