Litcius/Paper detail

Aptamer-Targeted Photodynamic Platforms for Tumor Therapy

Jincong Yan, Tian Gao, Zhongzhong Lu, Jingbo Yin, Ye Zhang, Renjun Pei

2021ACS Applied Materials & Interfaces101 citationsDOI

Abstract

Achieving controlled and accurate delivery of photosensitizers (PSs) into tumor sites is a major challenge in conventional photodynamic therapy (PDT). Aptamer is a short oligonucleotide sequence (DNA or RNA) with a folded three-dimensional structure, which can selectively bind to specific small molecules, proteins, or the whole cells. Aptamers could act as ligands and be modified onto PSs or nanocarriers, enabling specific recognition and binding to tumor cells or their membrane proteins. The resultant aptamer-modified PSs or PSs-containing nanocarriers generate amounts of reactive oxygen species with light irradiation and obtain superior photodynamic therapeutic efficiency in tumors. Herein, we overview the recent progress in the designs and applications of aptamer-targeted photodynamic platforms for tumor therapy. First, we focus on the progress on the rational selection of aptamers and summarize the applications of aptamers which have been applied for targeted tumor diagnosis and therapy. Then, aptamer-targeted photodynamic therapies including various aptamer-PSs, aptamer-nanocarriers containing PSs, and aptamer-nano-photosensitizers are highlighted. The aptamer-targeted synergistically therapeutic platforms including PDT, photothermal therapy, and chemotherapy, as well as the imaging-guided theranostics, are also discussed. Finally, we offer an insight into the development trends and future perspectives of aptamer-targeted photodynamic platforms for tumor therapy.

Topics & Concepts

AptamerNanocarriersPhotothermal therapyPhotodynamic therapyNanotechnologySystematic evolution of ligands by exponential enrichmentOligonucleotideTargeted therapyMaterials scienceCancer researchDrug deliveryCancerChemistryRNAMedicineBiologyDNAMolecular biologyBiochemistryGeneOrganic chemistryInternal medicineAdvanced biosensing and bioanalysis techniquesNanoplatforms for cancer theranosticsRNA Interference and Gene Delivery