一种从小鼠中分离特定肾小管片段的快速酶法。

A rapid enzymatic method for the isolation of defined kidney tubule fragments from mouse.

作者信息

Wagner Carsten A, Lükewille Ulrike, Valles Patricia, Breton Sylvie, Brown Dennis, Giebisch Gerhard H, Geibel John P

机构信息

Institute of Physiology, University of Zurich, Winterthurerstrasse 190, 8057 Zurich, Switzerland.

出版信息

Pflugers Arch. 2003 Aug;446(5):623-32. doi: 10.1007/s00424-003-1082-3. Epub 2003 May 13.

DOI:10.1007/s00424-003-1082-3

PMID:12748863

Abstract

The increasing number of available genetically manipulated mice makes it necessary to develop tools and techniques for examining the phenotypes of these animals. We have developed a straightforward and rapid method for the isolation of large quantities of single tubule fragments from the mouse kidney. Immunohistochemistry, electron microscopy, and fluorescence microscopy were used to evaluate the viability, functional characteristics, and morphology of proximal tubules (PT), and collecting ducts from cortex (CCD) and inner stripe of the outer medulla (ISOMCD). Tubules were isolated using a modified collagenase digestion technique, and selected under light microscopy for experimentation. Electron microscopy and trypan blue exclusion showed that a large portion of unselected proximal tubules were damaged by the digestion procedure. The selected tubules, however, all excluded trypan blue, indicating that the plasma membrane had remained intact. Immunocytochemistry on isolated CCD showed normal distribution of H(+)-ATPase, pendrin, and anion exchanger-1 (AE-1) staining. The pH-sensitive dye 2',7'-bis(2-carboxylethyl)-5(6)-carboxyfluorescein (BCECF) was used to measure Na(+)-dependent and -independent intracellular pH (pH(i)) recovery rates in PT, and in single intercalated cells of CCD and ISOMCD fragments. Na(+)-dependent pH(i)-recovery was 0.144+/-0.008 (PT), 0.182+/-0.013 (CCD), and 0.112+/-0.010 pH units/min. (ISOMCD). Na(+)-independent pH(i) recovery was found in all three segments (PT: 0.021+/-0.002, CCD: 0.037+/-0.002, ISOMCD: 0.033+/-0.002 pH units/min) and was sensitive to concanamycin. In summary, we have developed a new technique for rapid and straightforward preparation of large quantities of defined tubule fragments from mouse kidney. Using this technique, the first measurements of plasma membrane vacuolar H(+)-ATPase activities in mouse PT and collecting duct were made. This technique will facilitate further characterization of kidney function in normal and genetically manipulated animals.

摘要

随着可用的基因工程改造小鼠数量不断增加，开发用于检测这些动物表型的工具和技术变得很有必要。我们已经开发出一种直接且快速的方法，可从小鼠肾脏中分离出大量单个肾小管片段。运用免疫组织化学、电子显微镜和荧光显微镜来评估近端小管（PT）以及皮质集合管（CCD）和外髓质内层条带集合管（ISOMCD）的活力、功能特性和形态。使用改良的胶原酶消化技术分离肾小管，并在光学显微镜下挑选用于实验。电子显微镜和台盼蓝排斥试验表明，大部分未挑选的近端小管在消化过程中受损。然而，挑选出的肾小管均能排斥台盼蓝，这表明质膜保持完整。对分离出的CCD进行免疫细胞化学检测显示，H(+)-ATP酶、pendrin和阴离子交换蛋白-1（AE-1）染色分布正常。使用对pH敏感的染料2',7'-双（2-羧乙基）-5（6）-羧基荧光素（BCECF）来测量PT以及CCD和ISOMCD片段单个闰细胞中依赖和不依赖Na(+)的细胞内pH（pH(i)）恢复率。依赖Na(+)的pH(i)恢复率在PT中为0.144±0.008，在CCD中为0.182±0.013，在ISOMCD中为0.112±0.010 pH单位/分钟。在所有三个节段中均发现了不依赖Na(+)的pH(i)恢复（PT：0.021±0.002，CCD：0.037±0.002，ISOMCD：0.033±0.002 pH单位/分钟），并且对 concanamycin敏感。总之，我们已经开发出一种新技术，可快速且直接地从小鼠肾脏中制备大量特定的肾小管片段。利用该技术，首次对小鼠PT和集合管中的质膜空泡H(+)-ATP酶活性进行了测量。这项技术将有助于进一步表征正常和基因工程改造动物的肾功能。

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一种从小鼠中分离特定肾小管片段的快速酶法。

A rapid enzymatic method for the isolation of defined kidney tubule fragments from mouse.

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