Abstract
Epigenetic therapy has been demonstrated to be a viable strategy for breast cancer treatment. In this study, we report the anti-tumor activity of a hydroxamate-based histone deacetylase (HDAC)8-selective inhibitor, HMC, in breast cancer cells. MTT assays showed that HMC inhibited cell viability of MCF-7 and MDA-MB-231 cells with IC50 values of 7.7 μM and 9.5 μM, respectively. HMC induced caspase-dependent apoptosis in MCF-7 cells, which was associated with its ability to modulate a series of cell survival-related signaling effectors, including Akt, mTOR, Bax, Mcl-1, and Bcl-2. Additionally, HMC was capable of activating PPARγ, which was accompanied by reduced expression of PPARγ target gene products, such as cyclin D1 and CDK6. HMC increased the production of ROS in MCF-7 cells, which could be partially reversed by the cotreatment with a ROS scavenger (N-acetylcysteine or glutathione). Furthermore, HMC induced autophagy, as characterized by the formation of acidic vesicular organelles and autophagic biomarkers including LC3B-II and Atg5. Notably, pharmacological blockade of autophagy by 3-MA or CQ could attenuate HMC-induced apoptosis, suggesting that autophagy played a self-protective role in HMC-induced cell death. Together, these data suggest the translational potential of HMC to be developed into a potential therapeutic agent for breast cancer therapy.
Highlights
Increasing incidences and mortality of breast cancer still remains an unresolved issue in women’s health, with 2.1-million new cases and over 600,000 deaths worldwide in 2018 [1]
HMC treatment led to decreases in HDAC8 expression which is similar to the finding of PCI34051 in angiotension-II-induced hypertensive mice [15], while the level of HDAC1 remained largely unchanged in MCF-7 cells (Figure 1C)
Apoptosis is characteristic of pan-histone deacetylase (HDAC) inhibitor-mediated anticancer effects [9,31,32], the role of HDAC8 in this programmed cell death event remains to be elucidated
Summary
Increasing incidences and mortality of breast cancer still remains an unresolved issue in women’s health, with 2.1-million new cases and over 600,000 deaths worldwide in 2018 [1]. Biomolecules 2019, 9, 824 intake are known risk factors underlying the elevated incidence rate of breast cancer [2]. Despite recent advances in the development of targeted therapy, the overall survival in advanced breast cancer patients remains low at approximately 18% [3], indicating an urgency in developing new therapeutic strategies. SAHA was shown to synergize with the PARP inhibitor Olaparib in triple-negative breast cancer (TNBC) in vitro and in vivo by inducing apoptosis and autophagic cell death [9]. Evidence has shown clinical benefits of using SAHA in 40% of advanced tamoxifen-resistant breast cancer patients [10]
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