培养的肾远端小管细胞中剪切应力对钙通道的激活作用。

Activation of calcium channel by shear-stress in cultured renal distal tubule cells.

作者信息

Kawahara K, Matsuzaki K

机构信息

Department of Physiology, Faculty of Medicine, University of Tokyo, Japan.

出版信息

Biochem Biophys Res Commun. 1992 Apr 15;184(1):198-205. doi: 10.1016/0006-291x(92)91178-s.

DOI:10.1016/0006-291x(92)91178-s

PMID:1314583

Abstract

Using the patch-clamp technique and the fura-2 fluorescence measurement, we found that flow of a normal solution simultaneously increased both the inward cation (Ca) currents and the cytosolic Ca activity (Cai) in cultured renal distal tubule cells (A6 cells). The activation of these signals was voltage-independent and required a lag period of about 30 s. Flow of a Ca free solution (plus 0.1-0.5 mM EGTA) failed to increase these signals. The Ca current increased and saturated with increasing extracellular Ca concentrations (apparent Km, 1 mM Ca; maximum Ca current, 43 pA). Ni (1 mM) and La (1 mM) inhibited the flow-induced Cai-increase, but nicardipine (50 microM) did not. These results strongly suggest that in A6 cells flow increases Ca-influx through a shear-stress activated Ca-channel and may regulate the cellular transport functions.

摘要

利用膜片钳技术和fura - 2荧光测量法，我们发现，在培养的肾远端小管细胞（A6细胞）中，正常溶液的流动同时增加了内向阳离子（Ca）电流和胞质Ca活性（Cai）。这些信号的激活不依赖电压，且需要约30秒的延迟期。无Ca溶液（加0.1 - 0.5 mM EGTA）的流动未能增加这些信号。Ca电流随着细胞外Ca浓度的增加而增加并达到饱和（表观Km，1 mM Ca；最大Ca电流，43 pA）。1 mM的Ni和1 mM的La抑制了流动诱导的Cai增加，但50 microM的尼卡地平没有。这些结果有力地表明，在A6细胞中，流动通过剪切应力激活的Ca通道增加Ca内流，并可能调节细胞转运功能。

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培养的肾远端小管细胞中剪切应力对钙通道的激活作用。

Activation of calcium channel by shear-stress in cultured renal distal tubule cells.

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