Development and Application of Human Renal Proximal Tubule Epithelial Cells for Assessment of Compound Toxicity.

Shuaizhang Li, Jinghua Zhao, Ruili Huang, Toni Steiner, Maureen Bourner, Michael Mitchell, David C Thompson, Bin Zhao, Menghang Xia
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Abstract

Kidney toxicity is a major problem both in drug development and clinical settings. It is difficult to predict nephrotoxicity in part because of the lack of appropriate in vitro cell models, limited endpoints, and the observation that the activity of membrane transporters which plays important roles in nephrotoxicity by affecting the pharmacokinetic profile of drugs is often not taken into account. We developed a new cell model using pseudo-immortalized human primary renal proximal tubule epithelial cells. This cell line (SA7K) was characterized by the presence of proximal tubule cell markers as well as several functional properties, including transporter activity and response to a few well-characterized nephrotoxicants. We subsequently evaluated a group of potential nephrotoxic compounds in SA7K cells and compared them to a commonly used human immortalized kidney cell line (HK-2). Cells were treated with test compounds and three endpoints were analyzed, including cell viability, apoptosis and mitochondrial membrane potential. The results showed that most of the known nephrotoxic compounds could be detected in one or more of these endpoints. There were sensitivity differences in response to several of the chemicals between HK-2 and SA7K cells, which may relate to differences in expressions of key transporters or other components of nephrotoxicity pathways. Our data suggest that SA7K cells appear as promising for the early detection of renal toxicants.

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开发和应用人肾近曲小管上皮细胞评估化合物毒性
肾毒性是药物开发和临床应用中的一个主要问题。肾毒性难以预测的部分原因是缺乏合适的体外细胞模型、终点有限,以及膜转运体的活性往往没有被考虑在内,而膜转运体通过影响药物的药代动力学特征在肾毒性中发挥着重要作用。我们利用伪原代化的人类原发性肾近曲小管上皮细胞开发了一种新的细胞模型。这种细胞系(SA7K)的特点是存在近端肾小管细胞标记以及一些功能特性,包括转运体活性和对一些特征明确的肾毒性药物的反应。随后,我们在 SA7K 细胞中评估了一组潜在的肾毒性化合物,并将它们与常用的人类永生肾细胞系(HK-2)进行了比较。我们用测试化合物处理细胞,并对细胞活力、细胞凋亡和线粒体膜电位等三个终点进行了分析。结果表明,大多数已知的肾毒性化合物都能在其中一个或多个终点中被检测到。HK-2细胞和SA7K细胞对几种化学物质的反应存在敏感性差异,这可能与关键转运体或肾毒性途径的其他组成部分的表达差异有关。我们的数据表明,SA7K 细胞有望成为早期检测肾毒性物质的细胞。
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