Plasmonic nanostructure-mediated photothermal therapy(PTT) has proven to be a promising approach for cancer treatment,and new approaches for its effective delivery to tumor lesions are currently being developed.This s...Plasmonic nanostructure-mediated photothermal therapy(PTT) has proven to be a promising approach for cancer treatment,and new approaches for its effective delivery to tumor lesions are currently being developed.This study aimed to assess macrophage-mediated delivery of PTT using radioiodine-124-labeled gold nanoparticles with crushed gold shells(124I-Au@AuCBs) as a theranostic nanoplatform.124I-Au@AuCBs exhibited effective photothermal conversion effects both in vitro and in vivo and were efficiently taken up by macrophages without cytotoxicity.After the administration of 124I-Au@AuCB-labeled macrophages to colon tumors,intensive signals were observed at tumor lesions,and subsequent in vivo PTT with laser irradiation yielded potent antitumor effects.The results indicate the considerable potential of 124I-Au@AuCBs as novel theranostic nanomaterials and the prominent advantages of macrophage-mediated cellular therapies in treating cancer and other diseases.展开更多
BACKGROUND Dermal papillae(DP)and outer root sheath(ORS)cells play important roles in hair growth and regeneration by regulating the activity of hair follicle(HF)cells.AIM To investigate the effects of human mesenchym...BACKGROUND Dermal papillae(DP)and outer root sheath(ORS)cells play important roles in hair growth and regeneration by regulating the activity of hair follicle(HF)cells.AIM To investigate the effects of human mesenchymal stem cell-derived extracellular vesicles(hMSC-EVs)on DP and ORS cells as well as HFs.EVs are known to regulate various cellular functions.However,the effects of hMSC-EVs on hair growth,particularly on human-derived HF cells(DP and ORS cells),and the possible mechanisms underlying these effects are unknown.METHODS hMSC-EVs were isolated and characterized using transmission electron microscopy,nanoparticle tracking analysis,western blotting,and flow cytometry.The activation of DP and ORS cells was analyzed using cellular proliferation,migration,western blotting,and real-time polymerase chain reaction.HF growth was evaluated ex vivo using human HFs.RESULTS Wnt3a is present in a class of hMSC-EVs and associated with the EV membrane.hMSC-EVs promote the proliferation of DP and ORS cells.Moreover,they translocateβ-catenin into the nucleus of DP cells by increasing the expression ofβ-catenin target transcription factors(Axin2,EP2 and LEF1)in DP cells.Treatment with hMSC-EVs also promoted the migration of ORS cells and enhanced the expression of keratin(K)differentiation markers(K6,K16,K17,and K75)in ORS cells.Furthermore,treatment with hMSC-EVs increases hair shaft elongation in cultured human HFs.CONCLUSION These findings suggest that hMSC-EVs are potential candidates for further preclinical and clinical studies on hair loss treatment.展开更多
基金supported by National Research Foundation of Korea(NRF) grants funded by the Korea Government(MSIP)a grant from the Korea Health Technology R&D Project through the Korea Health Industry Development Institute(KHIDI) funded by the Ministry of Health&Welfare,Republic of Korea(HI16C1501)+1 种基金a grant from the Medical Cluster R&D Support Project through the Daegu-Gyeongbuk Medical Innovation Foundation(DGMIF) funded by the Ministry of Health and Welfare(HT16C0001,HT16C0002,HT17C0009)a National Research Foundation of Korea(NRF) Grant funded by the Korea Government(MSIP)(2014R1A1A1003323,2017R1D1A1B03028340,2018R1D1AB07047417)
文摘Plasmonic nanostructure-mediated photothermal therapy(PTT) has proven to be a promising approach for cancer treatment,and new approaches for its effective delivery to tumor lesions are currently being developed.This study aimed to assess macrophage-mediated delivery of PTT using radioiodine-124-labeled gold nanoparticles with crushed gold shells(124I-Au@AuCBs) as a theranostic nanoplatform.124I-Au@AuCBs exhibited effective photothermal conversion effects both in vitro and in vivo and were efficiently taken up by macrophages without cytotoxicity.After the administration of 124I-Au@AuCB-labeled macrophages to colon tumors,intensive signals were observed at tumor lesions,and subsequent in vivo PTT with laser irradiation yielded potent antitumor effects.The results indicate the considerable potential of 124I-Au@AuCBs as novel theranostic nanomaterials and the prominent advantages of macrophage-mediated cellular therapies in treating cancer and other diseases.
基金Supported by Basic Science Research Program through the National Research Foundation of Korea (NRF), Funded by the Ministry of Education, No. NRF-2019R1I1A1A01061296 and No. NRF-2021R1I1A1A01040732Korea Health Technology R & D Project through the Korea Health Industry Development Institute, Funded By the Ministry of Health & Welfare, Republic of Korea, No. HI15C0001
文摘BACKGROUND Dermal papillae(DP)and outer root sheath(ORS)cells play important roles in hair growth and regeneration by regulating the activity of hair follicle(HF)cells.AIM To investigate the effects of human mesenchymal stem cell-derived extracellular vesicles(hMSC-EVs)on DP and ORS cells as well as HFs.EVs are known to regulate various cellular functions.However,the effects of hMSC-EVs on hair growth,particularly on human-derived HF cells(DP and ORS cells),and the possible mechanisms underlying these effects are unknown.METHODS hMSC-EVs were isolated and characterized using transmission electron microscopy,nanoparticle tracking analysis,western blotting,and flow cytometry.The activation of DP and ORS cells was analyzed using cellular proliferation,migration,western blotting,and real-time polymerase chain reaction.HF growth was evaluated ex vivo using human HFs.RESULTS Wnt3a is present in a class of hMSC-EVs and associated with the EV membrane.hMSC-EVs promote the proliferation of DP and ORS cells.Moreover,they translocateβ-catenin into the nucleus of DP cells by increasing the expression ofβ-catenin target transcription factors(Axin2,EP2 and LEF1)in DP cells.Treatment with hMSC-EVs also promoted the migration of ORS cells and enhanced the expression of keratin(K)differentiation markers(K6,K16,K17,and K75)in ORS cells.Furthermore,treatment with hMSC-EVs increases hair shaft elongation in cultured human HFs.CONCLUSION These findings suggest that hMSC-EVs are potential candidates for further preclinical and clinical studies on hair loss treatment.
