核心
原位
细胞质
显微镜
生物物理学
机械转化
共焦显微镜
材料科学
细胞核
细胞内
原子力显微镜
纳米压痕
缩进
软化
共焦
纳米技术
化学
复合材料
生物
物理
光学
细胞生物学
生物化学
有机化学
作者
Haijiao Liu,Jun Wen,Yun Xiao,Jun Liu,Sevan Hopyan,Milica Radisic,Craig A. Simmons,Yu Sun
出处
期刊:ACS Nano
[American Chemical Society]
日期:2014-03-28
卷期号:8 (4): 3821-3828
被引量:205
摘要
The study of nuclear mechanical properties can provide insights into nuclear dynamics and its role in cellular mechanotransduction. While several methods have been developed to characterize nuclear mechanical properties, direct intracellular probing of the nucleus in situ is challenging. Here, a modified AFM (atomic force microscopy) needle penetration technique is demonstrated to mechanically characterize cell nuclei in situ. Cytoplasmic and nuclear stiffness were determined based on two different segments on the AFM indentation curves and were correlated with simultaneous confocal Z-stack microscopy reconstructions. On the basis of direct intracellular measurement, we show that the isolated nuclei from fibroblast-like cells exhibited significantly lower Young's moduli than intact nuclei in situ. We also show that there is in situ nucleus softening in the highly metastatic bladder cancer cell line T24 when compared to its less metastatic counterpart RT4. This technique has potential to become a reliable quantitative measurement tool for intracellular mechanics studies.
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