Chronic inhibition of STAT3/STAT5 in treatment-resistant human breast cancer cell subtypes: Convergence on the ROS/ SUMO pathway and its effects on xCT expression and system xc-activity

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Abstract

Pharmacologically targeting activated STAT3 and/or STAT5 has been an active area of cancer research. The cystine/glutamate antiporter, system -c , contributes to redox balance and export of intracellularly produced glutamate in response to up-regulated glutaminolysis in cancer cells. We have previously shown that blocking STAT3/5 using the small molecule inhibitor, SH-4-54, which targets the SH2 domains of both proteins, increases xCT expression, thereby increasing system -c activity in human breast cancer cells. The current investigation demonstrates that chronic SH-4-54 administration, followed by clonal selection of treatment-resistant MDA-MB-231 and T47D breast cancer cells, elicits distinct subtypedependent effects. xCT mRNA and protein levels, glutamate release, and cystine uptake are decreased relative to untreated passage-matched controls in triple-negative MDA-MB-231 cells, with the inverse occurring in estrogen-responsive T47D cells. This "ying-yang" effect is linked with a shifted balance between the phosphorylation status of STAT3 and STAT5, intracellular ROS levels, and STAT5 SUMOylation/de-SUMOylation. STAT5 emerged as a definitive negative regulator of xCT at the transcriptional level, while STAT3 activation is coupled with increased system -c activity. We propose that careful classification of a patient's breast cancer subtype is central to effectively targeting STAT3/5 as a therapeutic means of treating breast cancer, particularly given that xCT is emerging as an important biomarker of aggressive cancers.

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Linher-Melville, K., Nashed, M. G., Ungard, R. G., Haftchenary, S., Rosa, D. A., Gunning, P. T., & Singh, G. (2016). Chronic inhibition of STAT3/STAT5 in treatment-resistant human breast cancer cell subtypes: Convergence on the ROS/ SUMO pathway and its effects on xCT expression and system xc-activity. PLoS ONE, 11(8). https://doi.org/10.1371/journal.pone.0161202

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