通过含水通道蛋白2的囊泡运输调节血管加压素引发的水转运。

Modulation of vasopressin-elicited water transport by trafficking of aquaporin2-containing vesicles.

作者信息

Ward D T, Hammond T G, Harris H W

机构信息

Division of Nephrology, Children's Hospital, Harvard Medical School, Boston, Massachusetts 02115, USA.

出版信息

Annu Rev Physiol. 1999;61:683-97. doi: 10.1146/annurev.physiol.61.1.683.

DOI:10.1146/annurev.physiol.61.1.683

PMID:10099706

Abstract

Vasopressin or AVP regulates water reabsorption by the kidney inner medullary collecting duct (IMCD) through the insertion and removal of aquaporin (AQP) 2 water channels into the IMCD apical membrane. AVP-elicited trafficking of AQP2 with the apical membrane occurs via a specialized population of vesicles that resemble synaptic vesicles in neurons. AQP2 vesicles and the IMCD apical membrane contain homologs of vesicle-targeting and signal transduction proteins found in neurons. Expression studies of AQP2, including human AQP2 mutants, suggest that the carboxyl-terminal domain of AQP2 is important in AQP2 trafficking, particularly as a site for cAMP-dependent protein kinase phosphorylation. These present data reveal that IMCD cells possess a complex integrated-signaling and vesicle-trafficking machinery that provides integration of AVP-elicited water transport with many other parameters within the IMCD cell as well as kidney.

摘要

血管加压素或抗利尿激素（AVP）通过水通道蛋白（AQP）2水通道插入和移除到肾内髓集合管（IMCD）顶膜中来调节肾脏对水的重吸收。AVP引发的AQP2与顶膜的运输是通过一类特殊的囊泡进行的，这类囊泡类似于神经元中的突触囊泡。AQP2囊泡和IMCD顶膜含有在神经元中发现的囊泡靶向和信号转导蛋白的同源物。对AQP2的表达研究，包括人类AQP2突变体的研究表明，AQP2的羧基末端结构域在AQP2运输中很重要，特别是作为环磷酸腺苷依赖性蛋白激酶磷酸化的位点。目前这些数据表明，IMCD细胞拥有一个复杂的整合信号和囊泡运输机制，该机制能将AVP引发的水运输与IMCD细胞以及肾脏内的许多其他参数整合起来。

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通过含水通道蛋白2的囊泡运输调节血管加压素引发的水转运。

Modulation of vasopressin-elicited water transport by trafficking of aquaporin2-containing vesicles.

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