| Literature DB >> 24704156 |
Jinkyung Kim1, Hye Suk Kang2, Yu-Jin Lee3, Heon-Jin Lee4, Jieun Yun5, Jung Hyu Shin6, Chang Woo Lee7, Byoung-Mog Kwon8, Su-Hyung Hong9.
Abstract
There has been little evidence to support EGR1 and PTEN function on the EMT of cancer cells. We tried to evaluate how these genes affect cancer cell invasion and EMT through investigating the molecular mechanism(s) of 2'-benzoyloxycinnamaldehyde (BCA). Matrigel invasion and wound healing assay, and in vivo mice model were used to evaluate the effect of BCA on colon cancer cell migration. The molecular mechanism(s) of BCA were evaluated by knock-down or overexpression of EGR1 and PTEN. BCA at 50 nM increased E-cadherin and EGR1 expression without cytotoxicity. Cell migration was inhibited significantly by BCA both in vitro and in vivo. Moreover, BCA inhibits Snail and Vimentin expression, as well as β-catenin nuclear accumulation. Suppression of EGR1 by siRNA attenuated the inhibition of matrigel invasion by BCA, indicating that EGR1 is responsible for BCA effect. PTEN was upregulated by BCA treatment or EGR1 overexpression. In addition, shPTEN transfection stimulated EMT and cell invasion in vitro. Our data suggest that BCA leads to a remarkable upregulation of EGR1 expression, and that EMT and invasion is decreased via EGR1-dependent PTEN activation. These data showed a critical role of EGR1-PTEN signaling pathway in the EMT of colon cancer, as well as metastasis.Entities:
Keywords: 2′-Benzoyloxycinnamaldehyde; Colon cancer; Early growth response protein-1 (EGR1); Epithelial–mesenchymal transition (EMT); Metastasis; PTEN
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Year: 2014 PMID: 24704156 DOI: 10.1016/j.canlet.2014.03.025
Source DB: PubMed Journal: Cancer Lett ISSN: 0304-3835 Impact factor: 8.679