Construction Of High Loading Natural Active Substances Nanoplatform and Application in Synergistic Tumor Therapy

Haoqiang Liu,1,* Zeyidan Jiapaer,1,* Fanxing Meng,1 Wanfeng Wu,1 Chengyi Hou,2 Mengjiao Duan,1 Yanan Qin,1 Shuxuan Shao,1 Minwei Zhang1 1Xinjiang Key Laboratory of Biological Resources and Gentic Engineering, College of Life Science & Technology, Xinjiang University, Urumqi, 830046, People’s Republic of China; 2State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai, 201620, People’s Republic of China*These authors contributed equally to this workCorrespondence: Shuxuan Shao; Minwei Zhang, Email Shaoshux@126.com; zhangmw@xju.edu.cnBackground: Natural bioactive substances have been widely studied for their superior anti-tumor activity and low toxicity. However, natural bioactive substances suffer from poor water-solubility and poor stability in the physiological environment. Therefore, to overcome the drawbacks of natural bioactive substances in tumor therapy, there is an urgent need for an ideal nanocarrier to achieve high bioactive substance loading with low toxicity.Materials and Methods: Face-centered cubic hollow mesoporous Prussian Blue (HMPB) NPs were prepared by stepwise hydrothermal method. Among them, PVP served as a protective agent and HCl served as an etching agent. Firstly, MPB NPs were obtained by 0.01 M HCl etching. Then, the highly uniform dispersed HMPB NPs were obtained by further etching with 1 M HCl.Results: In this work, we report a pH-responsive therapeutic nanoplatform based on HMPB NPs. Surprisingly, as-prepared HMPB NPs with ultra-high bioactive substances loading capacity of 329 μg mg− 1 owing to the large surface area (131.67 m2 g− 1) and wide internal pore size distribution (1.8– 96.2 nm). Moreover, with the outstanding photothermal conversion efficiency of HMPB NPs (30.13%), natural bioactive substances were released in the tumor microenvironment (TME). HMPB@PC B2 achieved exc