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STAT3-RANTES autocrine signaling is essential for tamoxifen resistance in human breast cancer cells

Cited 67 time in Web of Science Cited 69 time in Scopus
Authors

Yi, Eun Hee; Lee, Chang Seok; Lee, Jin-Ku; Lee, Young Ju; Shin, Min Kyung; Cho, Chung-Hyun; Kang, Keon Wook; Lee, Jung Weon; Han, Wonshik; Noh, Dong-Young; Kim, Yong-Nyun; Cho, Ik-Hyun; Ye, Sang-Kyu

Issue Date
2013-01
Publisher
American Association for Cancer Research
Citation
Molecular Cancer Research, Vol.11 No.1, pp.31-42
Abstract
The acquisition of tamoxifen resistance is a major therapeutic problem in breast cancer. We developed a tamoxifen-resistant MCF-7 (TRM-7) cell line to elucidate the molecular mechanisms and factors associated with acquisition of such resistance. We showed that phosphorylation of STAT3 at tyrosine 705 (Y705) and RANTES expression are increased in response to tamoxifen in human breast cancer cells. On the basis of these results, we hypothesize that upregulated STAT3 phosphorylation and RANTES may be correlated with the development of drug resistance. Here, we showed that STAT3 and RANTES contribute to the maintenance of drug resistance. STAT3 phosphorylation is constitutively retained via a RANTES autocrine loop, which in turn upregulates antiapoptotic signals in TRM-7 cells. STAT3-RANTES autocrine signaling affected expression of anti-apoptotic BCL-2 family genes and prevented TRM-7 cells from undergoing programmed cell death by inhibiting PARP and caspase-9 cleavage. Subsequently, blockade of STAT3 and RANTES in TRM-7 cells resulted in reduction of anti-apoptotic signals, which was rescued by exogenous RANTES treatment; drug resistance was also restored. Taken together, our results suggested that STAT3-RANTES autocrine signaling is essential for maintenance of drug resistance and inhibition of programmed cell death. These mechanisms of STAT3-RANTES autocrine signaling suggest a novel strategy for management of patients with tamoxifen-resistant tumors. Mol Cancer Res; 11(1); 31-42. (c) 2012 AACR.
ISSN
1541-7786
URI
https://hdl.handle.net/10371/191564
DOI
https://doi.org/10.1158/1541-7786.MCR-12-0217
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  • College of Medicine
  • Department of Medicine
Research Area 3D drug screening, Cancer Organoid, Precision Oncologuy

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