WPI Nano-Life Science Institute (Nano-LSI), Kanazawa University, Japan; Division of Genetics, Cancer Research Institute, Kanazawa University, Japan.
WPI Nano-Life Science Institute (Nano-LSI), Kanazawa University, Japan.
Biomaterials. 2022 Jan;280:121256. doi: 10.1016/j.biomaterials.2021.121256. Epub 2021 Nov 13.
Recent genetic studies have indicated relationships between gene mutations and colon cancer phenotypes. However, how physical properties of tumor cells are changed by genetic alterations has not been elucidated. We examined genotype-defined mouse intestinal tumor-derived cells using a high-speed scanning ion conductance microscope (HS-SICM) that can obtain high-resolution live images of nano-scale topography and stiffness. The tumor cells used in this study carried mutations in Apc (A), Kras (K), Tgfbr2 (T), Trp53 (P), and Fbxw7 (F) in various combinations. Notably, high-metastatic cancer-derived cells carrying AKT mutations (AKT, AKTP, and AKTPF) showed specific ridge-like morphology with active membrane volume change, which was not found in low-metastatic and adenoma-derived cells. Furthermore, the membrane was significantly softer in the metastatic AKT-type cancer cells than other genotype cells. Importantly, a principal component analysis using RNAseq data showed similar distributions of expression profiles and physical properties, indicating a link between genetic alterations and physical properties. Finally, the malignant cell-specific physical properties were confirmed by an HS-SICM using human colon cancer-derived cells. These results indicate that the HS-SICM analysis is useful as a novel diagnostic strategy for predicting the metastatic ability of cancer cells.
最近的遗传研究表明基因突变与结肠癌表型之间存在关系。然而,遗传改变如何改变肿瘤细胞的物理特性尚未阐明。我们使用高速扫描离子电导显微镜(HS-SICM)检查了基因型定义的小鼠肠肿瘤衍生细胞,该显微镜可以获得纳米级形貌和硬度的高分辨率实时图像。本研究中使用的肿瘤细胞在 APC(A)、Kras(K)、Tgfbr2(T)、Trp53(P)和 Fbxw7(F)中携带各种组合的突变。值得注意的是,携带 AKT 突变(AKT、AKTP 和 AKTPF)的高转移性癌症衍生细胞表现出具有活跃膜体积变化的特定脊状形态,而低转移性和腺瘤衍生细胞中未发现这种形态。此外,转移性 AKT 型癌细胞的膜明显比其他基因型细胞柔软。重要的是,使用 RNAseq 数据进行的主成分分析显示表达谱和物理特性的相似分布,表明遗传改变与物理特性之间存在联系。最后,使用人结肠癌衍生细胞的 HS-SICM 证实了恶性细胞特有的物理特性。这些结果表明,HS-SICM 分析可作为一种新的诊断策略,用于预测癌细胞的转移能力。
