*Article* **Gamma Tocopherol Reduced Chemotherapeutic-Induced ROS in an Ovarian Granulosa Cell Line,But Not in Breast Cancer Cell Lines In Vitro**

#### **Daniela Figueroa Gonzalez and Fiona Young \***

Medical Biotechnology, College of Medicine and Public Health, Flinders University, Adelaide 5042, Australia; daniela.figueroagonzalez@flinders.edu.au

**\*** Correspondence: Fiona.Young@flinders.edu.au; Tel.: +618-7221-8558

Received: 25 November 2019; Accepted: 31 December 2019; Published: 7 January 2020

**Abstract:** Doxorubicin and cyclophosphamide are used to treat breast cancer, but they also cause infertility through o ff-target cytotoxicity towards proliferating granulosa cells that surround eggs. Each chemotherapeutic generates reactive oxygen species (ROS) but the e ffects of the combination, or the antioxidants alpha ( αToc) and gamma tocopherol ( γToc) on ROS in breast cancer or ovarian cells are unknown. Human breast cancer (MCF7, T47D) and ovarian cancer (OVCAR, COV434) cells were loaded with DCDFA and exposed (1, 2, 3, 24 h) to the MCF7-derived EC25 values of individual agents, or to combinations of these. ROS were quantified and viable cells enumerated using crystal violet or DAPI. Each chemotherapeutic killed ~25% of MCF7, T47D and OVCAR cells, but 57 ± 2% (doxorubicin) and 66 ± 2% (cyclophosphamide) of the COV434 granulosa cells. The combined chemotherapeutics decreased COV434 cell viability to 34 ± 5% of control whereas doxorubicin + cyclophosphamide + γToc reduced ROS within 3 h (*p* < 0.01) and reduced cytotoxicity to 54 ± 4% (*p* < 0.05). αToc was not cytotoxic, whereas γToc killed ~25% of the breast cancer but none of the ovarian cells. Adding γToc to the combined chemotherapeutics did not change ROS or cytotoxicity in MCF7, T47D or OVCAR cells. The protection γToc a fforded COV434 granulosa cells against chemotherapy-induced ROS and cytotoxicity suggests potential for fertility preservation.

**Keywords:** breast cancer; reactive oxygen species; tocopherol; doxorubicin; cyclophosphamide; ovary; granulosa cell; infertility
