Department of Nutritional Sciences, The Pennsylvania State University, University Park, PA 16802-6110, USA.
Cancer Lett. 2011 May 1;304(1):41-51. doi: 10.1016/j.canlet.2011.01.027. Epub 2011 Feb 25.
Human breast tumors accumulate abnormally high levels of zinc (Zn). As a result, numerous studies have implicated Zn hyper-accumulation in the etiology of breast cancer. Zinc accumulation can be cytotoxic, therefore cells have Zn-buffering mechanisms, such as metallothioneins (MT) and vesicular sequestration, which tightly regulate Zn homeostasis. The Zn transporter ZnT2 sequesters Zn into intracellular vesicles and thus can protect cells from Zn cytotoxicity. Herein, we report that malignant breast tumor (T47D) cells do not express MT but have approximately 4-fold greater Zn levels compared with non-malignant breast (MCF-10A) cells. Zinc accumulation coincided with ZnT2 over-expression and increased vesicular Zn pools. In this study, we hypothesized that ZnT2 suppression would eliminate protection from Zn accumulation and result in cytotoxicity in malignant breast tumor cells. Suppression of ZnT2 significantly increased cytoplasmic Zn pools (1.6-fold) as assessed with a Zn-responsive reporter assay containing four metal response elements (4X-MRE) fused to luciferase. Increased cytoplasmic Zn pools activated apoptosis in a caspase-independent manner. We observed significant generation of reactive oxygen species (ROS) (2.3-fold), lysosomal swelling and cathepsin D leakage in ZnT2-attenuated compared with ZnT2-expressing cells. Most importantly, tumor cell viability and tumor formation were significantly decreased (approximately 25%) in ZnT2-attenuated cells compared with ZnT2-expressing cells. Our data indicate that ZnT2 over-expression protects malignant MT-null breast tumor cells from Zn hyper-accumulation by sequestering Zn into intracellular vesicles. Moreover, our results implicate Zn compartmentalizing mechanisms as novel targets for breast cancer therapy.
人类乳腺肿瘤会异常积聚大量锌(Zn)。因此,大量研究表明 Zn 过度积聚与乳腺癌的病因有关。Zn 积聚可能具有细胞毒性,因此细胞具有 Zn 缓冲机制,例如金属硫蛋白(MT)和囊泡隔离,可严格调节 Zn 动态平衡。Zn 转运蛋白 ZnT2 将 Zn 隔离到细胞内囊泡中,从而可以保护细胞免受 Zn 细胞毒性。在此,我们报告恶性乳腺肿瘤(T47D)细胞不表达 MT,但与非恶性乳腺(MCF-10A)细胞相比,Zn 水平高约 4 倍。Zn 积聚与 ZnT2 过表达和增加的囊泡 Zn 库同时发生。在这项研究中,我们假设 ZnT2 抑制会消除对 Zn 积聚的保护作用,并导致恶性乳腺肿瘤细胞发生细胞毒性。用包含 4 个金属反应元件(4X-MRE)融合到荧光素酶的 Zn 反应性报告基因测定评估,ZnT2 抑制显著增加了细胞质 Zn 库(增加 1.6 倍)。细胞质 Zn 库的增加以 caspase 非依赖性方式激活细胞凋亡。与 ZnT2 表达细胞相比,我们观察到 ZnT2 减弱的细胞中显著产生了活性氧物种(ROS)(增加 2.3 倍),溶酶体肿胀和组织蛋白酶 D 渗漏。最重要的是,与 ZnT2 表达细胞相比,ZnT2 减弱的细胞中肿瘤细胞活力和肿瘤形成明显降低(约 25%)。我们的数据表明,ZnT2 过表达通过将 Zn 隔离到细胞内囊泡中来保护恶性 MT 缺失的乳腺肿瘤细胞免受 Zn 过度积聚。此外,我们的结果表明 Zn 分隔机制是乳腺癌治疗的新靶点。
