Purpose: Mitochondrial oxidative stress is an important factor in cell apoptosis. Cerium oxide nanomaterials show great potential for scavenging free radicals and simulating superoxide dismutase (SOD) and catalase (CAT) activities. To solve the problem of poor targeting of cerium oxide nanomaterials, we designed albumin-cerium oxide nanoclusters (TPP-PCNLs) that target the modification of mitochondria with triphenyl phosphate (TPP). TPP-PCNLs are expected to simulate the activity of superoxide dismutase, continuously remove reactive oxygen species, and play a lasting role in radiation protection. Methods: First, cerium dioxide nanoclusters (CNLs), polyethylene glycol cerium dioxide nanoclusters (PCNLs), and TPP-PCNLs were characterized in terms of their morphology and size, ultraviolet spectrum, dispersion stability and cellular uptake, and colocalization Subsequently, the anti-radiation effects of TPP-PCNLs were investigated using in vitro and in vivo experiments including cell viability, apoptosis, comet assays, histopathology, and dose reduction factor (DRF). Results: TPP-PCNLs exhibited good stability and biocompatibility. In vitro experiments indicated that TPP-PCNLs could not only target mitochondria excellently but also regulate reactive oxygen species (ROS)levels in whole cells. More importantly, TPP-PCNLs improved the integrity and functionality of mitochondria in irradiated L-02 cells, thereby indirectly eliminating the continuous damage to nuclear DNA caused by mitochondrial oxidative stress. TPP-PCNLs are mainly targeted to the liver, spleen, and other extramedullary hematopoietic organs with a radiation dose reduction factor of 1.30. In vivo experiments showed that TPP-PCNLs effectively improved the survival rate, weight change, hematopoietic function of irradiated animals. Western blot experiments have confirmed that TPP-PCNLs play a role in radiation protection by regulating the mitochondrial apoptotic pathway. Conclusion: TPP-PCNLs play a radiologically protective role by targeting extramedullary hematopoietic organ-liver cells and mitochondria to continuously clear ROS.
基金:
National Natural Science Foundation of China [82173456]; Chongqing Natural Science Foundation [CSTC2021jcyj-msxm3803]; Ministry of Science and Technology of the People's Republic of China [2017YFC0113904]; Sichuan Province Natural Science Foundation [2017SZ0004]; Science and Technology Bureau of Chengdu [2021YF0501659SN]
第一作者机构:[1]Army Med Univ, Dept Mil Prevent Med, Inst Combined Injury,Natl Key Lab Trauma & Chem Po, Army Key Lab Nanomed, Chongqing 400038, Peoples R China
共同第一作者:
通讯作者:
通讯机构:[1]Army Med Univ, Dept Mil Prevent Med, Inst Combined Injury,Natl Key Lab Trauma & Chem Po, Army Key Lab Nanomed, Chongqing 400038, Peoples R China[5]Chongqing Med Univ, Coll Pharm, Chongqing Pharmacodynam Evaluat Engn Technol Res C, Chongqing Key Lab Pharmaceut Metab Res, Chongqing 400016, Peoples R China[*1]Chongqing Med Univ, 1 Yixueyuan Rd, Chongqing 400016, Peoples R China[*2]Army Med Univ, 30 Gaotanyan St, Chongqing 400038, Peoples R China
推荐引用方式(GB/T 7714):
Yang Luxun,Ran Haiying,Yin Yaru,et al.Mitochondrial Targeted Cerium Oxide Nanoclusters for Radiation Protection and Promoting Hematopoiesis[J].INTERNATIONAL JOURNAL OF NANOMEDICINE.2024,19:6463-6483.doi:10.2147/IJN.S459607.
APA:
Yang, Luxun,Ran, Haiying,Yin, Yaru,Liu, Jing,Lu, Binghui...&Li, Rong.(2024).Mitochondrial Targeted Cerium Oxide Nanoclusters for Radiation Protection and Promoting Hematopoiesis.INTERNATIONAL JOURNAL OF NANOMEDICINE,19,
MLA:
Yang, Luxun,et al."Mitochondrial Targeted Cerium Oxide Nanoclusters for Radiation Protection and Promoting Hematopoiesis".INTERNATIONAL JOURNAL OF NANOMEDICINE 19.(2024):6463-6483
医学