Versatile hyaluronic acid modified AQ4N-Cu(II)-gossypol infinite coordination polymer nanoparticles: Multiple tumor targeting, highly efficient synergistic chemotherapy, and real-time self-monitoring

Abstract A novel strategy for the preparation of infinite coordination polymer nanoparticles (ICPs) based nanomedicines was developed, with which hyaluronic acid modified AQ4N-Cu(II)-gossypol nanoparticles (HA@AQ4N-Cu(II)-gossypol NPs) were obtained. This is a highly efficient nanomedicine, in which gossypol serves as a chemotherapeutic agent and a self-carrier material; Cu(II) serves as the connecting point and anti-tumor enhancer; AQ4N not only serves as a chemotherapeutic agent and self-carrier material, but also as the self-monitor based on its inherent fluorescence. HA@AQ4N-Cu(II)-gossypol NPs possessed a spherical shape with a dynamic size of 88.7 ± 7.4 nm, and the total drug-loading content and drug encapsulation efficiency are 77.41% and 100%, respectively. This nanomedicine has a multiple tumor-targeting ability caused by HA-receptor mediation and pH-responsive drug release. A significantly low combination index (0.097) of AQ4N and gossypol is ascertained. In vivo experiments indicate that it accumulates and significantly releases drugs at the tumor region. With the use of only one-fiftieth of AQ4N and half of gossypol of the generally administered dose, they can achieve significantly high anti-tumor efficiency with negligible side effects. Importantly, the switching-type changed fluorescence of AQ4N can be used for in vivo real-time self-monitoring of the drug release and distribution, which allows us to adjust the administration dose and time for different tumor types and stages for individual therapy.