Manganese Dioxide/Gold-based Active Tumor Targeting Nanoprobes for Enhancing Photodynamic and Low-Temperature-Photothermal Combination Therapy in Lung Cancer.

Abstract

Tumor drug resistance caused by the tumor microenvironment is an extremely difficult problem for researchers to solve. Nanoplatforms that integrate diagnosis and treatment have great advantages in tumor treatment, but the design and synthesis of simple and efficient nanoplatforms still face tremendous challenges. In this study, a novel Mn/Au@ir820/GA-CD133 nanoprobe was developed. The manganese dioxide/gold particles were prepared by coprecipitation/assembly, chemically coupled with CD133 antibody, and finally loaded with the photosensitive drug IR820 and the heat shock protein inhibitor Ganetespib. The nanoprobe demonstrated good tumor-targeting ability, increased the level of singlet oxygen produced from laser irradiation by effectively alleviating tumor hypoxia, and decreased the threshold of heat tolerance by downregulating the expression of HSP90 in tumor tissues. This nanoprobe successfully inhibited the growth and progression of tumor tissues in a tumor-bearing mouse model by improving the effectiveness of photodynamic and low-temperature photothermal combination therapy.