Prodrug strategies use chemical modifications to improve the pharmacokinetic properties and therefore therapeutic effects of parent drugs. Traditional prodrug approaches use endogenous enzymes for activation. Bioorthogonal catalysis uses processes that endogenous enzymes cannot access, providing a complementary strategy for prodrug uncaging. Site-selective activation of prodrugs to drugs (uncaging) using synthetic catalysts is a promising strategy for localized drug activation. We discuss here recent studies that incorporate metal catalysts into polymers and nanoparticle scaffolds to provide biocompatible "enzyme-like" catalysts that can penetrate bacterial biofilms and activate prodrug antibiotics in situ, affording a new strategy to treat bacterial biofilm infections with the potential for reduced off-target effects.
Keywords: Bioorthogonal; antimicrobial; in situ; nanoparticle; polymer; prodrug.
© The Author(s) 2021.