| Literature DB >> 25444900 |
Lei Lv1, Yang Li2, Hui Deng1, Cheng Zhang3, Youguang Pu1, Liting Qian4, Jun Xiao5, Weidong Zhao6, Qi Liu7, Daming Zhang8, Yingwei Wang9, Hongyu Zhang10, Yinghua He10, Jingde Zhu11.
Abstract
Chemoresistance prevents the curative cancer chemotherapy and presents a formidable challenge for both cancer researchers and clinicians. We have previously shown that miR-193a-3p promotes the multi-chemoresistance of bladder cancer cells via repressing its three target genes: SRSF2, PLAU and HIC2. Here, we showed that as a new direct target, the homeobox C9 (HOXC9) gene also executes the promoting effect of miR-193a-3p on the bladder cancer chemoresistance from a systematic study of multi-chemosensitive (5637) and resistant (H-bc) bladder cancer cell lines in both cell culture and tumor-xenograft/nude mice system. Paralleled with the changes in the drug-triggered cell death, the activities of both DNA damage response and oxidative stress pathways were drastically altered by a forced reversal of miR-193a-3p or HOXC9 levels in bladder cancer cells. In addition to a new mechanistic insight, our results provide a set of the essential genes in the miR-193a-3p/HOXC9/DNA damage response/oxidative stress pathway axis as the diagnostic targets for the guided anti-bladder cancer chemotherapy.Entities:
Keywords: Bladder cancer; Chemoresistance; DNA damage response; HOXC9; Oxidative stress; miR-193a-3p
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Year: 2014 PMID: 25444900 DOI: 10.1016/j.canlet.2014.11.002
Source DB: PubMed Journal: Cancer Lett ISSN: 0304-3835 Impact factor: 8.679