Abstract
Herein, we prepared an ultrathin rhenium disulfide nanosheet (utReS2) through the bovine serum albumin (BSA)-assisted ultrasonic exfoliation method, which showed great biocompatibility and high near-infrared (NIR) absorbance. The large surface specific area and the presence of BSA facilitate a high loading ratio and modification of multifunctional molecules. The low solubility anti-cancer drug resveratrol (RSV) was loaded onto the utReS2 surface to form a biocompatible nanocomposite (utReS2@RSV). A targeting molecule, folic acid (FA), was then conjugated to the BSA molecule of utReS2@RSV, resulting in utReS2@RSV-FA. The utReS2@RSV-FA exhibited a photothermal effect under an 808 nm laser irradiation. At pH = 6.5, about 16.5% of the RSV molecules was released from utReS2@RSV-FA over 24 h, while the value reached 55.3% after six cycles of NIR irradiation (5 min, 1 W cm-2). In vitro experiments of utReS2@RSV-FA showed that it had low cytotoxicity and an excellent HepG2 cells targeting effect. Upon pH/temperature dual-stimuli, utReS2@RSV-FA showed an enhanced cytotoxic effect. In vivo experiments of utReS2@RSV-FA intravenously injected into tumor-bearing mice showed that at 24 h post-injection, it could actively target and was largely accumulated in tumor tissue. When the injection was further accompanied by three cycles of NIR irradiation for 5 min, once a day, the tumor was efficiently suppressed, without relapse after 30 days. These findings demonstrate that utReS2@RSV-FA has a remarkable targeting ability while providing a dual-stimuli-responsive drug delivery system, and could effectively be used in a combination chemo-photothermal cancer treatment.