Photoacoustic agents combining photodynamic therapy(PDT) and photothermal therapy(PTT) functions have emerged as potent theranostic agents for combating cancer. The molecular approaches for enhancing the near-infrared...Photoacoustic agents combining photodynamic therapy(PDT) and photothermal therapy(PTT) functions have emerged as potent theranostic agents for combating cancer. The molecular approaches for enhancing the near-infrared(NIR)-absorption and maximizing non-radiative energy transfer are essential for effective photoacoustic imaging(PAI) and therapy applications. In addition, such molecules with high specificity and affinity to cancer cells are urgently needed, which would further decrease the side effect during treatments. In this study, we applied a heavy-atom engineering strategy and introduced p-aminophenol,-thio, and-seleno moieties into NIR heptamethine cyanine(Cy7) skeleton(Cy7-X-NH_(2), X = O, S, Se) to significantly increase photothermal conversion efficiency for PTT and promote intersystem crossing for PDT.Additionally, we designed a series of nitroreductase(NTR)-activated photoacoustic probes(Cy7-X-NO_(2),X = O, S, Se), and target hypoxic tumors with NTR overexpression. Our prostate cancer targeting probe,Cy7-Se-NO_(2)-KUE, exhibited specific tumor photoacoustic signals and effective tumor killing through outstanding synergistic PTT/PDT in vivo. These findings highlighted a versatile strategy for cancer photoacoustic diagnosis and enhanced phototherapy.展开更多
The rise of resistance to all known antibiotics is a global crisis.In addition to novel treatment options,there is an urgent need to develop rapid,specific,sensitive,and reliable diagnostic methods to detect pathogeni...The rise of resistance to all known antibiotics is a global crisis.In addition to novel treatment options,there is an urgent need to develop rapid,specific,sensitive,and reliable diagnostic methods to detect pathogenic bacteria in clinical samples and reduce the overuse and misuse antibiotics.Pseudopaline,a metallophore produced by the human pathogen Pseudomonas aeruginosa,transports divalent metal ions via a dedicated active transport system,making it an ideal carrier for a second functional moiety.展开更多
基金partially supported by the National Key R&D Program of China (No.2022YFE0199700)the National Natural Science Foundation of China (NSFC) projects (Nos.22077139and 22122705)CAMS Innovation Fund for Medical Sciences(CIFMS)(No.2022-I2M-2–002)。
文摘Photoacoustic agents combining photodynamic therapy(PDT) and photothermal therapy(PTT) functions have emerged as potent theranostic agents for combating cancer. The molecular approaches for enhancing the near-infrared(NIR)-absorption and maximizing non-radiative energy transfer are essential for effective photoacoustic imaging(PAI) and therapy applications. In addition, such molecules with high specificity and affinity to cancer cells are urgently needed, which would further decrease the side effect during treatments. In this study, we applied a heavy-atom engineering strategy and introduced p-aminophenol,-thio, and-seleno moieties into NIR heptamethine cyanine(Cy7) skeleton(Cy7-X-NH_(2), X = O, S, Se) to significantly increase photothermal conversion efficiency for PTT and promote intersystem crossing for PDT.Additionally, we designed a series of nitroreductase(NTR)-activated photoacoustic probes(Cy7-X-NO_(2),X = O, S, Se), and target hypoxic tumors with NTR overexpression. Our prostate cancer targeting probe,Cy7-Se-NO_(2)-KUE, exhibited specific tumor photoacoustic signals and effective tumor killing through outstanding synergistic PTT/PDT in vivo. These findings highlighted a versatile strategy for cancer photoacoustic diagnosis and enhanced phototherapy.
基金from the National Key Research and Development Program of China(no.2017YFA0505200)the National Natural Science Foundation of China Grant(nos.21625201,21961142010,21661140001,91853202,and 21521003)+1 种基金the Beijing Outstanding Young Scientist Program(no.BJJWZYJH01201910001001)a special research grant for early drug discovery from Roche Pharma Research&Early Development is gratefully acknowledged.
文摘The rise of resistance to all known antibiotics is a global crisis.In addition to novel treatment options,there is an urgent need to develop rapid,specific,sensitive,and reliable diagnostic methods to detect pathogenic bacteria in clinical samples and reduce the overuse and misuse antibiotics.Pseudopaline,a metallophore produced by the human pathogen Pseudomonas aeruginosa,transports divalent metal ions via a dedicated active transport system,making it an ideal carrier for a second functional moiety.
