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Glycolysis-based drug delivery nanosystems for therapeutic use in tumors and applications

Chenchen Geng, Siyan Pang, Ruyin Ye, Jiwen Shi, Qingling Yang, Changjie Chen, Wenrui Wang

2023Biomedicine & Pharmacotherapy24 citationsDOIOpen Access PDF

Abstract

Tumor cells are able to use glycolysis to produce energy under hypoxic conditions, and even under aerobic conditions, they rely mainly on glycolysis for energy production, the Warburg effect. Conventional tumor therapeutic drugs are unidirectional, lacking in targeting and have limited therapeutic effect. The development of a large number of nanocarriers and targeted glycolysis for the treatment of tumors has been extensively investigated in order to improve the therapeutic efficacy. This paper reviews the research progress of nanocarriers based on targeting key glycolytic enzymes and related transporters, and combines nanocarrier systems with other therapeutic approaches to provide a new strategy for targeted glycolytic treatment of tumors, providing a theoretical reference for achieving efficient targeted treatment of tumors.

Topics & Concepts

NanocarriersGlycolysisWarburg effectAnaerobic glycolysisDrug deliveryDrugTargeted drug deliveryCancer researchPharmacologyMedicineNanotechnologyMetabolismInternal medicineMaterials scienceCancer, Hypoxia, and MetabolismNanoplatforms for cancer theranosticsNanoparticle-Based Drug Delivery
Glycolysis-based drug delivery nanosystems for therapeutic use in tumors and applications | Litcius