Antipsychotic Drug Fluphenazine against Human Cancer Cells.

Abstract

Drug repurposing is a strategy that can speed up and find novel clinical uses for already-approved drugs for several diseases, such as cancer. This process is accelerated compared to the development of new drugs because these compounds have already been tested in clinical trials and data related to their pharmacokinetics is already described, reducing the costs and time associated with the development of new anticancer therapeutics. Several studies suggest that the repurposing of fluphenazine for cancer therapy may be a promising approach, as this drug proved to reduce the viability of diverse cancer cell lines. In this review, intensive research of the literature was performed related to the anticancer potential of fluphenazine in different human cancer cells. We have found several research articles on the cytotoxic effect of fluphenazine in lung, breast, colon, liver, brain, leukemia, oral, ovarian, and skin cancer and have summarized the main findings in this review. Taken together, these findings suggest that fluphenazine may regulate the cell cycle, reduce cell proliferation, and cause apoptosis in several types of cancer cells, besides being an established calmodulin inhibitor. It was also found that this drug is able to target cancer-related proteins, such as ABCB1 and P-glycoprotein as well as to regulate the Akt and Wnt signaling pathways. Some studies also refer this drug causes DNA alterations and interferes with cell invasion and migration ability as well as with ROS generation. Collectively, these results imply that fluphenazine may be a favorable compound for further research in oncologic therapy.