Pressure-driven accumulation of Mn-doped mesoporous silica nanoparticles containing 5-aza-2-deoxycytidine and docetaxel at tumours with a dry cupping device

Abstract

Drug delivery with the help of nanoparticles could transport more payloads to tumour site. Owing to their limited accumulation and penetration in the tumour tissues, to increase delivery efficiency is currently still required for applying nanomedicine to treat tumour. Here, we initially report a pressure-driven accumulation of drug-loaded nanoparticles to tumours for efficient tumour therapy with a dry cupping device. The mesoporous Mn-doped silica based nanoparticles delivering 5-aza-2-deoxycytidine and docetaxel were prepared, characterised and used as a model nanomedicine to investigate the potential of dry cupping treatment. For this system, the Mn doping not only endowed the mesoporous silica nanoparticles biodegradability, but also made it much easier to bind a tumour targeting group, which is a G-quadruplex-forming aptamer AS1411. On tumour-bearing mice, the in vivo results demonstrated that the dry cupping treatment could substantially improve the distribution of nanomedicines at tumour site, resulting in enhanced treatment efficacy. Overall, this method enables the therapeutical nanoparticles accumulate to tumour through increasing the blood perfusion as well as altering the biological barrier, which opened up possibilities for the development of pressure-driven nanomedicine accumulation at tumour site.