Thylakoid(Tk)membranes are of unique superiority in photodynamic therapy(PDT)because they not only carry abundant chlorophylls containing photosensitizer porphyrin but also can produce O_(2).However,the current therap...Thylakoid(Tk)membranes are of unique superiority in photodynamic therapy(PDT)because they not only carry abundant chlorophylls containing photosensitizer porphyrin but also can produce O_(2).However,the current therapeutic performance of Tk is dramatically limited because of their poor tumor targeting and inefficient O_(2) production.Here,we report an immunomodulatory bio-nanovesicle of Tk membranes fused with M1 macrophage-derived extracellular vesicles(M1 EV)for efficient PDT of tumors.The hybrid nanovesicle Tk@M1 was prepared by squeezing the Tk membranes of spinach with M1 EV.The systemic study confirmed that Tk@M1 can not only actively accumulate in tumors but also effectively regulate the inactive immune microenvironment of tumors.Such activated"hot"tumors significantly enhance the PDT efficacy of Tk@M1 attributed to the increased O_(2) from catalase catalyzed decomposition of augmented H_(2)O_(2),providing a novel idea about constructing natural systems for effective tumor treatment.展开更多
基金This work was funded by the National Natural Science Foundation of China(Nos.21874011,91859123,and 32101140)the National Science Fund for Distinguished Young Scholars(No.22025401)+2 种基金the China Postdoctoral Science Foundation(No.2020M680396)China Postdoctoral Science Foundation(Nos.2021TQ0037 and 2021M690405)The National Natural Science Foundation of China(No.21904012)。
文摘Thylakoid(Tk)membranes are of unique superiority in photodynamic therapy(PDT)because they not only carry abundant chlorophylls containing photosensitizer porphyrin but also can produce O_(2).However,the current therapeutic performance of Tk is dramatically limited because of their poor tumor targeting and inefficient O_(2) production.Here,we report an immunomodulatory bio-nanovesicle of Tk membranes fused with M1 macrophage-derived extracellular vesicles(M1 EV)for efficient PDT of tumors.The hybrid nanovesicle Tk@M1 was prepared by squeezing the Tk membranes of spinach with M1 EV.The systemic study confirmed that Tk@M1 can not only actively accumulate in tumors but also effectively regulate the inactive immune microenvironment of tumors.Such activated"hot"tumors significantly enhance the PDT efficacy of Tk@M1 attributed to the increased O_(2) from catalase catalyzed decomposition of augmented H_(2)O_(2),providing a novel idea about constructing natural systems for effective tumor treatment.
