Radiotherapy(RT)is a widely used way for cancer treatment.However,the efficiency of RT may come with various challenges such as low specificity,limitation by resistance,high dose and so on.Nitric oxide(NO)is known a v...Radiotherapy(RT)is a widely used way for cancer treatment.However,the efficiency of RT may come with various challenges such as low specificity,limitation by resistance,high dose and so on.Nitric oxide(NO)is known a very effective radiosensitizer of hypoxic tumor.However,NO cannot circulate in body with high concentration.Herein,an NIR light-responsive NO delivery system is developed for controlled and precisely release of NO to hypoxic tumors during radiotherapy.Tert-Butyl nitrite,which is an efficient NO source,is coupled to Ag2S quantum dots(QDs).NO could be generated and released from the Ag2S QDs effectively under the NIR irradiation due to the thermal effect.In addition,Ag is also a type of heavy metal that can benefit the RT therapy.We demonstrate that Ag2S NO delivery platforms remarkably maximize radiotherapy effects to inhibit tumor growth in CT26 tumor model.Furthermore,immunosuppressive tumor microenvironment is improved by our NO delivery system,significantly enhancing the anti-PD-L1 immune checkpoint blockade therapy.100% survival rate is achieved by the radio-immune combined therapy strategy based on the Ag2S NO delivery platforms.Our results suggest the promise of Ag2S NO delivery platforms for multifunctional cancer radioimmunotherapy.展开更多
基金This work is supported by grants from startup supports of Soochow University and the Program for Jiangsu Specially Appointed Professors to C.WThis work is partly supported by Collaborative Innovation Center of Suzhou Nano Science&Technology,the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD),the 111 Project+2 种基金This work was also supported by the National Natural Science Foundation of China(No.31900988)the Natural Science Foundation of Jiangsu Province(No.SBK2019040088)Jiangsu Province Six Talent Peaks Project(No.SWYY-110).
文摘Radiotherapy(RT)is a widely used way for cancer treatment.However,the efficiency of RT may come with various challenges such as low specificity,limitation by resistance,high dose and so on.Nitric oxide(NO)is known a very effective radiosensitizer of hypoxic tumor.However,NO cannot circulate in body with high concentration.Herein,an NIR light-responsive NO delivery system is developed for controlled and precisely release of NO to hypoxic tumors during radiotherapy.Tert-Butyl nitrite,which is an efficient NO source,is coupled to Ag2S quantum dots(QDs).NO could be generated and released from the Ag2S QDs effectively under the NIR irradiation due to the thermal effect.In addition,Ag is also a type of heavy metal that can benefit the RT therapy.We demonstrate that Ag2S NO delivery platforms remarkably maximize radiotherapy effects to inhibit tumor growth in CT26 tumor model.Furthermore,immunosuppressive tumor microenvironment is improved by our NO delivery system,significantly enhancing the anti-PD-L1 immune checkpoint blockade therapy.100% survival rate is achieved by the radio-immune combined therapy strategy based on the Ag2S NO delivery platforms.Our results suggest the promise of Ag2S NO delivery platforms for multifunctional cancer radioimmunotherapy.
