Interaction between lung cancer cell and myofibroblast influenced by cyclic tensile strain | Zendy

Jiun-Wei Huang | Zendy; HueiJyuan Pan | Zendy; Wei-Yu Yao | Zendy; Yu-Wei Tsao | Zendy; WeiYu Liao | Zendy; Chih-Wei Wu | Zendy; YiChung Tung | Zendy; ChauHwang Lee | Zendy

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Interaction between lung cancer cell and myofibroblast influenced by cyclic tensile strain

Author(s) -

Jiun-Wei Huang,

HueiJyuan Pan,

Wei-Yu Yao,

Yu-Wei Tsao,

WeiYu Liao,

Chih-Wei Wu,

YiChung Tung,

ChauHwang Lee

Publication year - 2013

Publication title -

lab on a chip

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.064

H-Index - 210

eISSN - 1473-0197

pISSN - 1473-0189

DOI - 10.1039/c2lc41050h

Subject(s) - myofibroblast , motility , stromal cell , lung cancer , cancer research , cancer cell , metastasis , strain (injury) , cell migration , microbiology and biotechnology , focal adhesion , cell , cancer , materials science , medicine , chemistry , fibrosis , pathology , biology , anatomy , biochemistry

Using a cell culture chip with a deformable substrate driven by a hydraulic force, we investigated the motility of cancer cells affected by myofibroblasts undergoing cyclic tensile strain (CTS). CTS reduced both the expression of α-smooth muscle actin in the myofibroblast and the ability of the myofibroblast to accelerate cancer cell migration. However, with the treatment of a pro-inflammatory factor interleukin-1β on the myofibroblasts, the effects of CTS on the myofibroblast were diminished. This result suggests an antagonism between mechanical and chemical stimulations on mediating cancer metastasis by the stromal myofibroblast.

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