Os(ii) complexes for catalytic anticancer therapy: recent update

The recent dramatic enhancement in cancer-related mortality and the drawbacks (side effects and resistance) of Pt-based first-generation chemotherapeutics have escalated the need for new cancer medicines with unique anticancer activities for better human life. To overcome the demerits of Pt-based cancer drugs, the concept of catalytic anticancer agents has recently been presented in the field of anticancer metallodrug development research. Many intracellular transformations in cancer cells are catalyzed by metal complexes, including pyruvate reduction to lactate, NAD(P)(+) reduction to NAD(P)H and vice versa, and the conversion of O-3(2) to reactive oxygen species (ROS). These artificial in-cell changes with non-toxic and catalytic dosages of metal complexes have been shown to disrupt several essential intracellular processes which ultimately cause cell death. This new approach could develop potent next-generation catalytic anticancer drugs. In this context, recently, several 16/18 electron Os(ii)-based complexes have shown promising catalytic anticancer activities with unique anticancer mechanisms. Herein, we have delineated the catalytic anticancer activity of Os(ii) complexes from a critical viewpoint. These catalysts are reported to induce the in-cell catalytic transfer hydrogenation of pyruvate and important quinones to create metabolic disorder and photocatalytic ROS generation for oxidative stress generation in cancer cells. Overall, these Os(ii) catalysts have the potential to be novel catalytic cancer drugs with new anticancer mechanisms.

Automated summary

In response to the increasing mortality rate associated with cancer and the limitations of Pt-based chemotherapeutics, the concept of catalytic anticancer agents has been introduced, showing promising results with Os(ii) complexes in disrupting essential intracellular processes in cancer cells, ultimately leading to cell death. These complexes have the potential to be novel catalytic cancer drugs with unique anticancer mechanisms.