Novel insights into taxane pharmacology: An update on drug resistance mechanisms, immunomodulation and drug delivery strategies
Giovanni Luca Beretta, Giuliana Cassinelli, Giacomina Rossi, Amalia Azzariti, Iléana Corbeau, Diégo Tosi, Paola Perego
Abstract
Taxanes are effective in several solid tumors. Paclitaxel, the main clinically available taxane, was approved in the early nineties, for the treatment of ovarian cancer and later on, together with the analogs docetaxel and cabazitaxel, for other malignancies. By interfering with microtubule function and impairing the separation of sister cells at mitosis, taxanes act as antimitotic agents, thereby counteracting the high proliferation rate of cancer cells. The action of taxanes goes beyond their antimitotic function because their main cellular targets, the microtubules, participate in multiple processes such as intracellular transport and cell shape maintenance. The clinical efficacy of taxanes is limited by the development of multiple resistance mechanisms. Among these, extracellular vesicles have emerged as new players. In addition, taxane metronomic schedules shown an impact on the tumor microenvironment reflected by antiangiogenic and immunomodulatory effects, an aspect of growing interest considering their inclusion in treatment regimens with immunotherapeutics. Preclinical studies have paved the bases for synergistic combinations of taxanes both with conventional and targeted agents. A variety of drug delivery strategies have provided novel opportunities to increase the drug activity. The ability of taxanes to orchestrate different cellular effects amenable to modulation suggests novel options to improve cures in lethal malignancies. • Taxanes are potent anticancer drugs of natural origin exhibiting clinical efficacy in several solid tumors. • Drug resistance mechanisms of taxanes are being enriched by the discovery of new mediators such as extracellular vesicles. • The immunomodulatory effects of taxanes appear promising. • Optimization of drug delivery has already been achieved in selected tumor types and further optimization of taxane-based therapy is actively ongoing.