Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy
Abstract Background Nano-Fenton reactors as novel strategy to selectively convert hydrogen peroxide (H2O2) into active hydroxyl radicals in tumor microenvironment for cancer therapy had attracted much attention. However, side effects and low efficiency remain the main drawbacks for cancer precise th...
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2021-04-01
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| Series: | Journal of Nanobiotechnology |
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| Online Access: | https://doi.org/10.1186/s12951-021-00848-x |
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doaj-c20e96a9dd8f44f7abbf119fa5b45add2021-04-11T11:08:08ZengBMCJournal of Nanobiotechnology1477-31552021-04-0119111610.1186/s12951-021-00848-xRuthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapyDongdong Sun0Zekun Wang1Pu Zhang2Chenyang Yin3Jingyuan Wang4Yu Sun5Ying Chen6Weiyun Wang7Baoliang Sun8Cundong Fan9School of Life Sciences, Anhui Agricultural UniversitySchool of Life Sciences, Anhui Agricultural UniversityDepartment of Cardiovascular Medicine, Taian City Central HospitalSchool of Life Sciences, Anhui Agricultural UniversitySchool of Life Sciences, Anhui Agricultural UniversitySchool of Life Sciences, Anhui Agricultural UniversitySchool of Life Sciences, Anhui Agricultural UniversitySchool of Life Sciences, Anhui Agricultural UniversityDepartment of Neurology, Second Affiliated Hospital; Key Lab of Cerebral Microcirculation in Universities of Shandong, Shandong First Medical University & Shandong Academy of Medical SciencesDepartment of Neurology, Second Affiliated Hospital; Key Lab of Cerebral Microcirculation in Universities of Shandong, Shandong First Medical University & Shandong Academy of Medical SciencesAbstract Background Nano-Fenton reactors as novel strategy to selectively convert hydrogen peroxide (H2O2) into active hydroxyl radicals in tumor microenvironment for cancer therapy had attracted much attention. However, side effects and low efficiency remain the main drawbacks for cancer precise therapy. Results Here, ruthenium-loaded palmitoyl ascorbate (PA)-modified mesoporous silica (Ru@SiO2-PA) was successfully fabricated and characterized. The results indicated that Ru@SiO2-PA under pH6.0 environment displayed enhanced growth inhibition against human cancer cells than that of pH7.4, which indicated the super selectivity between cancer cells and normal cells. Ru@SiO2-PA also induced enhanced cancer cells apoptosis, followed by caspase-3 activation and cytochrome-c release. Mechanism investigation revealed that Ru@SiO2-PA caused enhanced generation of superoxide anion, which subsequently triggered DNA damage and dysfunction of MAPKs and PI3K/AKT pathways. Moreover, Ru@SiO2-PA effectively inhibited tumor spheroids and tumor xenografts growth in vivo by induction of apoptosis. The real-time imaging by monitoring Ru fluorescence in vitro and in vivo revealed that Ru@SiO2-PA mainly accumulated in cell nucleus and tumor xenografts. Importantly, Ru@SiO2-PA showed no side effects in vivo, predicting the safety and potential application in clinic. Conclusions Our findings validated the rational design that Ru@SiO2-PA can act as novel tumor microenvironment-response nano-Fenton reactors for cancer precise therapy. Graphic Abstracthttps://doi.org/10.1186/s12951-021-00848-xTumor microenvironmentMesoporous silicaNano-Fenton reactorsCancer precise therapy |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Dongdong Sun Zekun Wang Pu Zhang Chenyang Yin Jingyuan Wang Yu Sun Ying Chen Weiyun Wang Baoliang Sun Cundong Fan |
| spellingShingle |
Dongdong Sun Zekun Wang Pu Zhang Chenyang Yin Jingyuan Wang Yu Sun Ying Chen Weiyun Wang Baoliang Sun Cundong Fan Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy Journal of Nanobiotechnology Tumor microenvironment Mesoporous silica Nano-Fenton reactors Cancer precise therapy |
| author_facet |
Dongdong Sun Zekun Wang Pu Zhang Chenyang Yin Jingyuan Wang Yu Sun Ying Chen Weiyun Wang Baoliang Sun Cundong Fan |
| author_sort |
Dongdong Sun |
| title |
Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy |
| title_short |
Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy |
| title_full |
Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy |
| title_fullStr |
Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy |
| title_full_unstemmed |
Ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy |
| title_sort |
ruthenium-loaded mesoporous silica as tumor microenvironment-response nano-fenton reactors for precise cancer therapy |
| publisher |
BMC |
| series |
Journal of Nanobiotechnology |
| issn |
1477-3155 |
| publishDate |
2021-04-01 |
| description |
Abstract Background Nano-Fenton reactors as novel strategy to selectively convert hydrogen peroxide (H2O2) into active hydroxyl radicals in tumor microenvironment for cancer therapy had attracted much attention. However, side effects and low efficiency remain the main drawbacks for cancer precise therapy. Results Here, ruthenium-loaded palmitoyl ascorbate (PA)-modified mesoporous silica (Ru@SiO2-PA) was successfully fabricated and characterized. The results indicated that Ru@SiO2-PA under pH6.0 environment displayed enhanced growth inhibition against human cancer cells than that of pH7.4, which indicated the super selectivity between cancer cells and normal cells. Ru@SiO2-PA also induced enhanced cancer cells apoptosis, followed by caspase-3 activation and cytochrome-c release. Mechanism investigation revealed that Ru@SiO2-PA caused enhanced generation of superoxide anion, which subsequently triggered DNA damage and dysfunction of MAPKs and PI3K/AKT pathways. Moreover, Ru@SiO2-PA effectively inhibited tumor spheroids and tumor xenografts growth in vivo by induction of apoptosis. The real-time imaging by monitoring Ru fluorescence in vitro and in vivo revealed that Ru@SiO2-PA mainly accumulated in cell nucleus and tumor xenografts. Importantly, Ru@SiO2-PA showed no side effects in vivo, predicting the safety and potential application in clinic. Conclusions Our findings validated the rational design that Ru@SiO2-PA can act as novel tumor microenvironment-response nano-Fenton reactors for cancer precise therapy. Graphic Abstract |
| topic |
Tumor microenvironment Mesoporous silica Nano-Fenton reactors Cancer precise therapy |
| url |
https://doi.org/10.1186/s12951-021-00848-x |
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