The gold complex auranofin sensitizes platinum resistant epithelial ovarian cancer cells to cisplatin.

Although numerous drugs have been tested to treat ovarian cancer (OC), survival rates remain low as there has been no major improvement from platinum (Pt)-based therapy and there is a high rate of Pt resistance in these tumors. Following several rounds of chemotherapy, OC cells develop Pt-resistance by increasing DNA repair and antioxidant defense mechanisms. This study aimed to design a treatment to combat recurrent stages of OC by repurposing the anti-rheumatic gold complex auranofin (AF).

Vitality, viability, long-term clonogenic survival, cytotoxicity, cytostasis and lethality: what do they mean when testing new investigational oncology drugs?

In the field of experimental therapeutics for oncology purposes researchers are continuously evaluating the toxicity of novel treatment approaches against cancer cells. Within this topic of research, it is highly critical to define parameters of toxicity that denote when cancer cells are perturbed in their functionality by a new investigational drug. As the goal for these approaches is to achieve cellular demise, then what approaches to use and what do they mean in terms of assessing such cell death is of critical importance.

Auranofin Induces Lethality Driven by Reactive Oxygen Species in High-Grade Serous Ovarian Cancer Cells.

High-grade serous ovarian cancer (HGSOC) accounts for 70% of ovarian cancer cases, and the survival rate remains remarkably low due to the lack of effective long-term consolidation therapies. Clinical remission can be temporarily induced by platinum-based chemotherapy, but death subsequently results from the extensive growth of a platinum-resistant component of the tumor. This work explores a novel treatment against HGSOC using the gold complex auranofin (AF).

Revisiting the Anti-Cancer Toxicity of Clinically Approved Platinating Derivatives.

Cisplatin (CDDP), carboplatin (CP), and oxaliplatin (OXP) are three platinating agents clinically approved worldwide for use against a variety of cancers. They are canonically known as DNA damage inducers; however, that is only one of their mechanisms of cytotoxicity. CDDP mediates its effects through DNA damage-induced transcription inhibition and apoptotic signalling.