Nickel-induced increases in gap junctional communication in the uterine cell line SK-UT-1.

In vitro cellular & developmental biology : journal of the Tissue Culture Association Pub Date : 1993-03-01 DOI:10.1007/BF02634186

M S Marty, R Loch-Caruso

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引用次数: 1

Abstract

Previous studies have suggested that gap junctions may have a role in various uterine functions, including parturition. Because nickel has been demonstrated to increase uterine contractility in vitro, the effect of nickel (II) chloride on gap junctional communication was assessed in a tumorigenic uterine cell line, SK-UT-1 (ATCC HTB 114). Cells were exposed in vitro to 25 and 50 microM NiCl2 for 24 h or 100 microM NiCl2 for 3, 12, and 24 h, then functional gap junctional communication was measured as the transfer of Lucifer yellow dye from microinjected donor cells to their primary neighbor cells. Dye transfer was significantly increased only in cell cultures exposed to 100 microM NiCl2 for 24 h, compared to untreated controls, lower doses, and shorter exposure periods. This response was inhibited by the simultaneous co-treatment of SK-UT-1 cells with magnesium by adding 100 microM MgSO4 to the dosing medium. Possible mechanisms and implications for these findings are discussed.

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镍诱导的子宫细胞系SK-UT-1缝隙连接通讯的增加。

先前的研究表明，间隙连接可能在包括分娩在内的各种子宫功能中起作用。由于镍在体外已被证明可增加子宫收缩力，因此在致瘤性子宫细胞系SK-UT-1 (ATCC HTB 114)中评估了氯化镍对间隙连接通讯的影响。将细胞体外暴露于25和50微米的NiCl2中24小时，或100微米的NiCl2中3、12和24小时，然后通过将路西法黄染料从微注射的供体细胞转移到它们的原代相邻细胞来测量功能间隙连接通讯。与未处理的对照、较低剂量和较短的暴露时间相比，仅在暴露于100微米NiCl2 24小时的细胞培养中，染料转移显著增加。在给药培养基中加入100微米的MgSO4，同时对SK-UT-1细胞进行共处理，抑制了这种反应。讨论了这些发现的可能机制和意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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In vitro cellular & developmental biology : journal of the Tissue Culture Association

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