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Hierarchically Structured Molecularly Imprinted Nanotransducers for Truncated HER2-Targeted Photodynamic Therapy of Therapeutic Antibody-Resistant Breast Cancer

Zikuan Gu, Zhanchen Guo, Song Gao, Lingrui Huang, Zhen Liu

2023ACS Nano29 citationsDOI

Abstract

Antibodies have been a mainstream class of therapeutics for clinical treatment of various diseases, especially cancers. However, mutation in cancer cells leads to resistance to therapeutic antibodies, hyperactivity of proliferation of cancer cells, and difficulty in the development of therapeutic antibodies. Herein, we present a strategy termed molecularly imprinted nanotransducer (MINT) for targeted photodynamic therapy (PDT) of mutated cancers. The MINT is a rationally engineered nanocomposite featuring a core of an upconversion nanoparticle, a shell of a thin layer of molecularly imprinted polymer, and a photosensitizer modified on the surface. As a proof-of-principle, truncated HER2 (P95HER2) overexpressed breast cancer, a challenging cancer lacking effective targeted therapeutics, was used as the cancer model. The designed structure, properties, functions, and anticancer efficacy of MINT were systematically investigated and experimentally confirmed. The MINT could not only specifically target P95HER2+ cancer cells in vitro and in vivo but also efficiently transfer the irradiated light and generate excited-state oxygen, resulting in efficient targeted cancer killing. Therefore, the MINT strategy provides a promising therapeutic for targeted PDT of drug-resistant cancers caused by target mutation.

Topics & Concepts

Photodynamic therapyCancer researchCancerCancer cellPhotosensitizerBreast cancerNanocarriersAntibodyIn vivoTargeted therapyMedicineChemistryDrugBiologyPharmacologyImmunologyInternal medicineBiotechnologyOrganic chemistryPhotodynamic Therapy Research StudiesNanoplatforms for cancer theranosticsMicrofluidic and Capillary Electrophoresis Applications
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