Anticancer boron-containing prodrugs responsive to oxidative stress from the tumor microenvironment.

Boronic acid (and ester) prodrugs targeting the overexpressed level of reactive oxygen species within tumor microenvironment represent a promising area for the discovery of new selective anticancer chemotherapy. This strategy that emerged only ten years ago is exponentially growing and could demonstrate its clinical usefulness in the near future. Herein, the previously described small-molecule and macromolecular anticancer prodrugs activated by carbon-boron oxidation are gathered. This review reports on the most interesting derivatives mentioned in the literature based on the in vitro and in vivo activity when available. Eventually, the pharmacological applicability of this strategy is discussed, in particular, the kinetic aspect of the prodrug oxidation and the selectivity of this reaction towards certain ROS from the tumor microenvironment are specified.