Perfluorocarbon Nanoparticles Mediated Platelet Blocking Disrupt Vascular Barriers to Improve the Efficacy of Oxygen-Sensitive Antitumor Drugs.

Abstract

Currently, limited tumor drug permeation and poor oxygen perfusion are two major bottlenecks that significantly impair the efficacy of existing antitumor drugs, especially oxygen-sensitive antitumor drugs. One vital cause of these major bottlenecks is the abnormal tumor vessel barrier. To the best knowledge of the authors, platelets play a vital role in the maintenance of an abnormal tumor blood barrier through platelet-tumor interaction. Thus, platelet inhibition may present a new way to enhance drug delivery. In this study, it is originally discovered that perfluorotributylamine-based albumin nanoparticles (PFTBA@HSA) possess excellent platelet inhibiting abilities, which then selectively disrupt the tumor vessel barrier, resulting in a remarkably enhanced intratumoral drug accumulation. Interestingly enough, the tumor hypoxia is also obviously relieved by enhanced oxygen carrier red blood cell distribution and PFTBA@HSA infiltration in the tumors. Finally, the efficacy of oxygen-sensitive antitumor drugs is significantly amplified by PFTBA@HSA owing to enhanced drug permeation and relieved tumor hypoxia. Therefore, for the first time, it is demonstrated that PFTBA@HSA could be used as an effective way to improve the efficacy of existing tumor therapies by disrupting tumor vessel barriers through targeted platelet inhibition.