Low-Dose Cadmium Exposure Reduces Human Prostate Cell Transformation in Culture and Up-Regulates Metallothionein and MT-1G mRNA.

Jaya P Gaddipati, N V Rajeshkumar, Jason C Grove, Susan V M Maharaj, Jose A Centeno, Radha K Maheshwari, Wayne B Jonas
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Abstract

Chronic low-level exposure to environmental toxins, including cadmium (Cd), is a growing problem in the industrialized world. One promising strategy for protection from these toxins is the use of low-dose exposure of environmental chemicals to induce cell tolerance and recovery, a phenomenon known as "protective hormesis". Hormetic [low-dose stimulatory] effects occur in a variety of systems and with a number of chemicals. Cd is a potent carcinogen in rodents and has also been linked to human lung and prostate cancers. In the present study, we have evaluated the protective effects of low and ultra-low dose, long-term Cd exposure in the normal human prostate cells, RWPE-1. Cells were exposed to low and ultra-low doses (0, 0 (S(-36)), 10(-6), 10(-7), 10(-18), 10(-21), 10(-32), or 10(-36)M) of Cd for 20 weeks followed by treatment with 10(-5)M Cd for another 8 weeks. Continuous exposure of RWPE-1 cells to 10(-5)M Cd results in malignant transformation. However, cells pretreated with low and ultra-low doses of Cd had delayed transformation compared with controls. In addition, the number of transformed cell mounds was lower in pretreated cells indicating that low and ultra-low dose exposure had protective effects against high-dose Cd induced carcinogenesis. The expression of metallothionein (MT), the primary Cd detoxification protein, was induced by low-dose exposure to Cd and maintained during the 20 weeks. In addition, MT-1G mRNA was up-regulated 2- to 3-fold by low-dose and ultralow-dose Cd exposures and may be the mechanism of protective hormesis in this model. MT-1G mRNA might also serve as a biological indicator of very low-dose environmental Cd exposure.

低剂量镉暴露可减少培养过程中人类前列腺细胞的转化,并上调金属硫蛋白和 MT-1G mRNA。
在工业化国家,包括镉(Cd)在内的环境毒素的长期低剂量暴露是一个日益严重的问题。保护人体免受这些毒素伤害的一个可行策略是利用低剂量接触环境化学物质来诱导细胞耐受和恢复,这种现象被称为 "保护性激素作用"。激素[低剂量刺激]效应出现在多种系统和多种化学品中。镉是啮齿动物的一种强致癌物质,也与人类的肺癌和前列腺癌有关。在本研究中,我们评估了长期接触低剂量和超低剂量镉对正常人前列腺细胞 RWPE-1 的保护作用。将细胞暴露于低剂量和超低剂量(0、0 (S(-36))、10(-6)、10(-7)、10(-18)、10(-21)、10(-32)或 10(-36)M)镉 20 周,然后再用 10(-5)M 镉处理 8 周。RWPE-1 细胞持续暴露于 10(-5)M Cd 会导致恶性转化。不过,与对照组相比,用低剂量和超低剂量镉预处理的细胞会延迟转化。此外,预处理细胞中转化细胞丘的数量较少,这表明低剂量和超低剂量暴露对高剂量镉诱导的癌变具有保护作用。金属硫蛋白(MT)是镉的主要解毒蛋白,低剂量接触镉诱导了金属硫蛋白的表达,并在 20 周内保持不变。此外,MT-1G mRNA在低剂量和超低剂量镉暴露下上调2至3倍,这可能是该模型中保护性激素作用的机制。MT-1G mRNA还可作为极低剂量环境镉暴露的生物学指标。
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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