Title :
Investigation of retinoic acid induced phenotype of neuroblastoma cells
Author :
Yuqiang Fang ; Lai, King W. C. ; Lui, Cathy N. P. ; Fung, Carmen K. M. ; Hung-Wing Li ; Yung, Ken K. L. ; Ning Xi
Author_Institution :
Dept. of Mech. & Biomed. Eng., City Univ. of Hong Kong, Hong Kong, China
Abstract :
Retinoic acid and its synthetic derivatives are considered as potential agents in cancer therapy because of its pharmacological effect to promote differentiation and to inhibit proliferation of cancer cells. However, clinical trials are greatly hindered by the side effect of retinoic acid with pharmacological dose and limited knowledge of retinoic acid functionalizing exerted on entire cells. Here, we applied atomic force microscopy as a less invasive approach to monitor the retinoic acid induced effect on entire live neuroblastoma cells. Our studies demonstrated that the live SH-SY5Y cells were stiffened and demonstrated the morphology of orientated growth. The Young´s modulus and surface roughness of cells were increased under retinoic acid stimulus, which could serve as novel indicators for possibly development of anti-cancer drug screening.
Keywords :
Young´s modulus; atomic force microscopy; biomechanics; biomedical materials; cancer; cellular biophysics; drugs; patient treatment; surface roughness; Young modulus; anticancer drug screening; atomic force microscopy; cancer cell differentiation; cancer cell proliferation; cancer therapy; live SH-SY5Y cell stiffness; neuroblastoma cells; pharmacological dose; pharmacological effect; retinoic acid induced effect monitoring; surface roughness; Cancer; Force; Microscopy; Rough surfaces; Surface roughness; Surface treatment; Young´s modulus;
Conference_Titel :
Nanotechnology (IEEE-NANO), 2014 IEEE 14th International Conference on
Conference_Location :
Toronto, ON
DOI :
10.1109/NANO.2014.6968089
