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A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme
The disability, mortality and costs due to ionizing radiation (IR)-induced osteoporotic bone fractures are substantial and no effective therapy exists. Ionizing radiation increases cellular oxidative damage, causing an imbalance in bone turnover that is primarily driven via heightened activity of th...
| Autores principales: | , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
KeAi Publishing
2022
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9507991/ https://www.ncbi.nlm.nih.gov/pubmed/36185749 http://dx.doi.org/10.1016/j.bioactmat.2022.09.011 |
| _version_ | 1784796922479902720 |
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| author | Wei, Fei Neal, Craig J. Sakthivel, Tamil Selvan Fu, Yifei Omer, Mahmoud Adhikary, Amitava Ward, Samuel Ta, Khoa Minh Moxon, Samuel Molinari, Marco Asiatico, Jackson Kinzel, Michael Yarmolenko, Sergey N. San Cheong, Vee Orlovskaya, Nina Ghosh, Ranajay Seal, Sudipta Coathup, Melanie |
| author_facet | Wei, Fei Neal, Craig J. Sakthivel, Tamil Selvan Fu, Yifei Omer, Mahmoud Adhikary, Amitava Ward, Samuel Ta, Khoa Minh Moxon, Samuel Molinari, Marco Asiatico, Jackson Kinzel, Michael Yarmolenko, Sergey N. San Cheong, Vee Orlovskaya, Nina Ghosh, Ranajay Seal, Sudipta Coathup, Melanie |
| author_sort | Wei, Fei |
| collection | PubMed |
| description | The disability, mortality and costs due to ionizing radiation (IR)-induced osteoporotic bone fractures are substantial and no effective therapy exists. Ionizing radiation increases cellular oxidative damage, causing an imbalance in bone turnover that is primarily driven via heightened activity of the bone-resorbing osteoclast. We demonstrate that rats exposed to sublethal levels of IR develop fragile, osteoporotic bone. At reactive surface sites, cerium ions have the ability to easily undergo redox cycling: drastically adjusting their electronic configurations and versatile catalytic activities. These properties make cerium oxide nanomaterials fascinating. We show that an engineered artificial nanozyme composed of cerium oxide, and designed to possess a higher fraction of trivalent (Ce(3+)) surface sites, mitigates the IR-induced loss in bone area, bone architecture, and strength. These investigations also demonstrate that our nanozyme furnishes several mechanistic avenues of protection and selectively targets highly damaging reactive oxygen species, protecting the rats against IR-induced DNA damage, cellular senescence, and elevated osteoclastic activity in vitro and in vivo. Further, we reveal that our nanozyme is a previously unreported key regulator of osteoclast formation derived from macrophages while also directly targeting bone progenitor cells, favoring new bone formation despite its exposure to harmful levels of IR in vitro. These findings open a new approach for the specific prevention of IR-induced bone loss using synthesis-mediated designer multifunctional nanomaterials. |
| format | Online Article Text |
| id | pubmed-9507991 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2022 |
| publisher | KeAi Publishing |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-95079912022-09-30 A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme Wei, Fei Neal, Craig J. Sakthivel, Tamil Selvan Fu, Yifei Omer, Mahmoud Adhikary, Amitava Ward, Samuel Ta, Khoa Minh Moxon, Samuel Molinari, Marco Asiatico, Jackson Kinzel, Michael Yarmolenko, Sergey N. San Cheong, Vee Orlovskaya, Nina Ghosh, Ranajay Seal, Sudipta Coathup, Melanie Bioact Mater Article The disability, mortality and costs due to ionizing radiation (IR)-induced osteoporotic bone fractures are substantial and no effective therapy exists. Ionizing radiation increases cellular oxidative damage, causing an imbalance in bone turnover that is primarily driven via heightened activity of the bone-resorbing osteoclast. We demonstrate that rats exposed to sublethal levels of IR develop fragile, osteoporotic bone. At reactive surface sites, cerium ions have the ability to easily undergo redox cycling: drastically adjusting their electronic configurations and versatile catalytic activities. These properties make cerium oxide nanomaterials fascinating. We show that an engineered artificial nanozyme composed of cerium oxide, and designed to possess a higher fraction of trivalent (Ce(3+)) surface sites, mitigates the IR-induced loss in bone area, bone architecture, and strength. These investigations also demonstrate that our nanozyme furnishes several mechanistic avenues of protection and selectively targets highly damaging reactive oxygen species, protecting the rats against IR-induced DNA damage, cellular senescence, and elevated osteoclastic activity in vitro and in vivo. Further, we reveal that our nanozyme is a previously unreported key regulator of osteoclast formation derived from macrophages while also directly targeting bone progenitor cells, favoring new bone formation despite its exposure to harmful levels of IR in vitro. These findings open a new approach for the specific prevention of IR-induced bone loss using synthesis-mediated designer multifunctional nanomaterials. KeAi Publishing 2022-09-21 /pmc/articles/PMC9507991/ /pubmed/36185749 http://dx.doi.org/10.1016/j.bioactmat.2022.09.011 Text en © 2022 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). |
| spellingShingle | Article Wei, Fei Neal, Craig J. Sakthivel, Tamil Selvan Fu, Yifei Omer, Mahmoud Adhikary, Amitava Ward, Samuel Ta, Khoa Minh Moxon, Samuel Molinari, Marco Asiatico, Jackson Kinzel, Michael Yarmolenko, Sergey N. San Cheong, Vee Orlovskaya, Nina Ghosh, Ranajay Seal, Sudipta Coathup, Melanie A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| title | A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| title_full | A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| title_fullStr | A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| title_full_unstemmed | A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| title_short | A novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| title_sort | novel approach for the prevention of ionizing radiation-induced bone loss using a designer multifunctional cerium oxide nanozyme |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9507991/ https://www.ncbi.nlm.nih.gov/pubmed/36185749 http://dx.doi.org/10.1016/j.bioactmat.2022.09.011 |
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