Natural mussel protein-derived antitumor nanomedicine with tumor-targeted bioadhesion and penetration
Yunhong He, Jianwei Wang, Shuping Wang, Kaxi Yu, Jun Zhou, Jinqiang Wang, Guping Tang, Zhen Gu, Hongzhen Bai
Journal:Nano Today
IF:18.96
DOI:10.1016/j.nantod.2022.101700
PMID:
Published:2022-12-06
research field:癌症研究生物医学工程药学纳米技术
Abstract
Increasing drug infiltration by exerting tumor-specific retention and penetration is a key aspect for antitumor nanomedicine design. Herein, we have developed a mussel adhesive protein-inspired nanomedicine with tumor-targeted adhesion and penetration for enhanced photodynamic therapy and hypoxia-driven chemotherapy. Natural mussel adhesive proteins (NMPs) are conjugated to phenylboronic acid (PBA)-containing Tirapazamine prodrug (PBT) via recognization of DOPA residues of NMPs to PBA moieties of PBT, endowing NMPs with tumor environment-responsive bioadhesion while unaffecting their systematic circulation. Indocyanine green (ICG) is further incorporated into NMPs to acquire nanomedicine [email protected] with reduced cationic property. In the tumor environment, the cationic property is upturned with the responsive cleavage of DOPA-PBA bonding, facilitating tumor penetration. [email protected] are then internalized by tumor cells through arginine-transporter endocytosis . Triggered by near-infrared irradiation, [email protected] generate cytotoxic reactive oxygen species and aggravate tumor hypoxia , which potentiates PBT activation, therefore showing combination antitumor effect in both orthotopic and metastatic breast tumor models.
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