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Biomimetic liposomal nanozymes improve breast cancer chemotherapy with enhanced penetration and alleviated hypoxia

Juanjuan Li, Chunai Gong, Xinlu Chen, Huanhuan Guo, Zongguang Tai, Nan Ding, Shen Gao, Yuan Gao

2023Journal of Nanobiotechnology29 citationsDOIOpen Access PDF

Abstract

Abstract Background Doxorubicin (Dox) has been recommended in clinical guidelines for the standard-of-care treatment of breast cancer. However, Dox therapy faces challenges such as hypoxia, acidosis, H 2 O 2 -rich conditions and condensed extracellular matrix in TME as well as low targeted ability. Methods We developed a nanosystem H-MnO 2 -Dox-Col NPs based on mesoporous manganese dioxide (H-MnO 2 ) in which Dox was loaded in the core and collagenase (Col) was wrapped in the surface. Further the H-MnO 2 -Dox-Col NPs were covered by a fusion membrane (MP) of inflammation-targeted RAW264.7 cell membrane and pH-sensitive liposomes to form biomimetic MP@H-MnO 2 -Dox-Col for in vitro and in vivo study. Results Our results shows that MP@H-MnO 2 -Dox-Col can increase the Dox effect with low cardiotoxicity based on multi-functions of effective penetration in tumor tissue, alleviating hypoxia in TME, pH sensitive drug release as well as targeted delivery of Dox. Conclusions This multifunctional biomimetic nanodelivery system exhibited antitumor efficacy in vivo and in vitro , thus having potential for the treatment of breast cancer.

Topics & Concepts

DoxorubicinIn vivoChemistryPharmacologyLiposomeBreast cancerCardiotoxicityIn vitroCancer cellDoxorubicin HydrochlorideHypoxia (environmental)Drug deliveryBreast cancer chemotherapyCancer researchChemotherapyMedicineCancerBiochemistryInternal medicineBiologyOrganic chemistryBiotechnologyOxygenNanoplatforms for cancer theranosticsNanoparticle-Based Drug DeliveryAdvanced Nanomaterials in Catalysis
Biomimetic liposomal nanozymes improve breast cancer chemotherapy with enhanced penetration and alleviated hypoxia | Litcius