Cell-Materials Interaction Group, Biomaterials Unit, Nano-Bio Field, International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS), 1-1, Namiki, Tsukuba, Ibaraki 305-0044, Japan.
Biotechnol Bioeng. 2012 Dec;109(12):3112-8. doi: 10.1002/bit.24583. Epub 2012 Jul 4.
Nanotechnology is becoming increasingly important for products used in our daily lives, such as the masses of titanium dioxide nanoparticle agglomerates (TiO(2) NPs) used in the pharmaceutical industry, for cosmetic products, or for pigments. Meanwhile, a serious lack of detailed information concerning the interaction between the nanomaterials and cells limits their biological and medical applications. Sensing technology is very important for understanding these interactions. We have shown that TiO(2) NPs induce heat shock protein 70B' (HSP70B') mRNA [Okuda-Shimazaki et al., 2010. Int J Mol Sci 11:2383-2392]. In the current work, sensor cells for detection of cellular responses to NPs were prepared by transfecting an HSP70B' promoter-reporter plasmid. First, to find suitable cells for detection, five different mammalian cell lines were chosen as potential sensor cells. The results showed TiO(2) NP response in some cell lines, although different sensor cells had different TiO(2) NP response levels, as heat shock response ability is important for the detection. Then, we studied the TiO(2) NP time-course response and dose response. The results indicated that our sensor cells can detect TiO(2) NP cellular responses. Our work should aid in understanding the interactions between bio-nanomaterials and cells.
纳米技术在我们日常生活中使用的产品中变得越来越重要,例如用于制药、化妆品或颜料的大量二氧化钛纳米颗粒团聚体 (TiO(2) NPs)。与此同时,由于缺乏关于纳米材料与细胞相互作用的详细信息,限制了它们在生物和医学领域的应用。传感技术对于理解这些相互作用非常重要。我们已经证明 TiO(2) NPs 诱导热休克蛋白 70B' (HSP70B') mRNA [Okuda-Shimazaki 等人,2010. Int J Mol Sci 11:2383-2392]。在当前的工作中,通过转染 HSP70B' 启动子报告质粒来制备用于检测细胞对 NPs 反应的传感器细胞。首先,为了找到适合检测的细胞,选择了五种不同的哺乳动物细胞系作为潜在的传感器细胞。结果表明,一些细胞系对 TiO(2) NPs 有反应,尽管不同的传感器细胞对 TiO(2) NPs 的反应水平不同,因为热休克反应能力对检测很重要。然后,我们研究了 TiO(2) NP 的时间过程响应和剂量响应。结果表明,我们的传感器细胞可以检测 TiO(2) NP 的细胞反应。我们的工作应该有助于理解生物纳米材料与细胞之间的相互作用。
