Journal
BIOMATERIALS
Volume 295, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.biomaterials.2023.122035
Keywords
Radiation therapy; Metal -organic frameworks; Nanomedicine; Biosynthesis; Glycolysis; Radiosensitization
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Researchers have developed hafnium-based nanoscale metal-organic frameworks (Hf-nMOFs) loaded with 3-bromopyruvate (3-BrPA) to overcome resistance to radiation therapy and improve its effectiveness. The Hf-nMOFs enhance the deposition of X-rays, leading to stronger DNA damage, while the loaded 3-BrPA reduces energy supply and interferes with protein biosynthesis, decreasing DNA damage repair. This strategy enhances the curative effect of radiation therapy and provides new perspectives on cancer treatment by reducing radiation doses.
Radiation therapy (RT) is one of the most widely used cancer treatments. However, the vigorous biosynthesis of cancer cells plays an important role for RT resistance. Herein, we develop a hafnium-based nanoscale metal -organic frameworks (Hf-nMOFs) loaded with 3-bromopyruvate (3-BrPA) to overcome RT resistance and ach-ieve favorable RT efficacy. The deposition of X-rays is greatly enhanced by Hf-nMOFs to induce stronger damage to DNA in RT. Simultaneously, as an inhibitor of glycolysis, the loaded 3-BrPA can reduce the supply of energy and interfere with the biosynthesis of proteins to decrease the DNA damage repair. As a result, the 3-BrPA@Hf-nMOFs (BHT) will overcome the RT resistance and enhance the curative effect of RT. Up and down-regulated genes as well as the related pathways in cellular metabolism and biosynthesis are well investigated to reveal the radiosensitization mechanism of BHT. In addition, the Hf element endows BHT with CT imaging capability to real-timely monitor the therapeutic process. Hence, the designed strategy of biosynthesis-targeted radio -sensitization could decrease the doses of ionizing radiations and provide fresh perspectives on cancer treatment.
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