Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice

Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice

With more powerful penetrability and ionizing capability, high energetic neutron radiation (HENR) often poses greater threats than photon radiation, especially on such occasions as nuclear bomb exposure, nuclear accidents, aerospace conduction, and neutron-based radiotherapy. Therefore, there emerge...

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Main Authors: Jiaming Guo, Tingting Liu, Long Ma, Wei Hao, Hongli Yan, Taosheng Li, Yanyong Yang, Jianming Cai, Fu Gao, Zhao Xu, Hu Liu
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Oxidative Medicine and Cellular Longevity
Online Access:http://dx.doi.org/10.1155/2020/8905860
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spelling doaj-323c20a61b8246bea31166c53f3a44412020-11-25T03:35:50ZengHindawi LimitedOxidative Medicine and Cellular Longevity1942-09001942-09942020-01-01202010.1155/2020/89058608905860Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of MiceJiaming Guo0Tingting Liu1Long Ma2Wei Hao3Hongli Yan4Taosheng Li5Yanyong Yang6Jianming Cai7Fu Gao8Zhao Xu9Hu Liu10Department of Radiation Medicine, College of Naval Medicine, Naval Medical University, Shanghai 200433, ChinaDepartment of Radiation Medicine, College of Naval Medicine, Naval Medical University, Shanghai 200433, ChinaDepartment of Reproductive Medicine Center, Changhai Hospital, Naval Medical University, Shanghai 200433, ChinaDepartment of Endocrinology, Changhai Hospital, Naval Medical University, Shanghai 200433, ChinaDepartment of Reproductive Medicine Center, Changhai Hospital, Naval Medical University, Shanghai 200433, ChinaInstitute of Nuclear Energy Safety Technology, Chinese Academy of Sciences, Hefei, Anhui 230031, ChinaDepartment of Radiation Medicine, College of Naval Medicine, Naval Medical University, Shanghai 200433, ChinaDepartment of Radiation Medicine, College of Naval Medicine, Naval Medical University, Shanghai 200433, ChinaDepartment of Radiation Medicine, College of Naval Medicine, Naval Medical University, Shanghai 200433, ChinaInstitute of Nuclear Energy Safety Technology, Chinese Academy of Sciences, Hefei, Anhui 230031, ChinaDepartment of Radiation Medicine, College of Naval Medicine, Naval Medical University, Shanghai 200433, ChinaWith more powerful penetrability and ionizing capability, high energetic neutron radiation (HENR) often poses greater threats than photon radiation, especially on such occasions as nuclear bomb exposure, nuclear accidents, aerospace conduction, and neutron-based radiotherapy. Therefore, there emerges an urgent unmet demand in exploring highly efficient radioprotectants against HENR. In the present study, high-throughput 14.1 MeV neutrons were generated by the high-intensity D-T fusion neutron generator (HINEG) and succeeded in establishing the acute radiation syndrome (ARS) mouse model induced by HENR. A series of preclinical studies, including morphopathological assessment, flow cytometry, peripheral complete blood, and bone marrow karyocyte counting, were applied showing much more serious detriments of HENR than the photon radiation. In specific, it was indicated that surviving fraction of polydatin- (PD-) treated mice could appreciably increase to up to 100% when they were exposed to HENR. Moreover, polydatin contributed much in alleviating the HENR-induced mouse body weight loss, spleen and testis indexes decrease, and the microstructure alterations of both the spleen and the bone marrow. Furthermore, we found that the HENR-damaged hematopoiesis was greatly prevented by PD treatment in such aspects as bone marrow hemocytogenesis, splenocytes balancing, or even the peripheral blood cellularity. The additional IHC investigations revealed that PD could exert potent hematopoiesis-promoting effects against HENR via suppressing apoptosis and promoting the antioxidative enzymes such as HO-1.http://dx.doi.org/10.1155/2020/8905860
collection DOAJ
language English
format Article
sources DOAJ
author Jiaming Guo
Tingting Liu
Long Ma
Wei Hao
Hongli Yan
Taosheng Li
Yanyong Yang
Jianming Cai
Fu Gao
Zhao Xu
Hu Liu
spellingShingle Jiaming Guo
Tingting Liu
Long Ma
Wei Hao
Hongli Yan
Taosheng Li
Yanyong Yang
Jianming Cai
Fu Gao
Zhao Xu
Hu Liu
Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice
Oxidative Medicine and Cellular Longevity
author_facet Jiaming Guo
Tingting Liu
Long Ma
Wei Hao
Hongli Yan
Taosheng Li
Yanyong Yang
Jianming Cai
Fu Gao
Zhao Xu
Hu Liu
author_sort Jiaming Guo
title Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice
title_short Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice
title_full Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice
title_fullStr Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice
title_full_unstemmed Polydatin Attenuates 14.1 MeV Neutron-Induced Injuries via Regulating the Apoptosis and Antioxidative Pathways and Improving the Hematopoiesis of Mice
title_sort polydatin attenuates 14.1 mev neutron-induced injuries via regulating the apoptosis and antioxidative pathways and improving the hematopoiesis of mice
publisher Hindawi Limited
series Oxidative Medicine and Cellular Longevity
issn 1942-0900
1942-0994
publishDate 2020-01-01
description With more powerful penetrability and ionizing capability, high energetic neutron radiation (HENR) often poses greater threats than photon radiation, especially on such occasions as nuclear bomb exposure, nuclear accidents, aerospace conduction, and neutron-based radiotherapy. Therefore, there emerges an urgent unmet demand in exploring highly efficient radioprotectants against HENR. In the present study, high-throughput 14.1 MeV neutrons were generated by the high-intensity D-T fusion neutron generator (HINEG) and succeeded in establishing the acute radiation syndrome (ARS) mouse model induced by HENR. A series of preclinical studies, including morphopathological assessment, flow cytometry, peripheral complete blood, and bone marrow karyocyte counting, were applied showing much more serious detriments of HENR than the photon radiation. In specific, it was indicated that surviving fraction of polydatin- (PD-) treated mice could appreciably increase to up to 100% when they were exposed to HENR. Moreover, polydatin contributed much in alleviating the HENR-induced mouse body weight loss, spleen and testis indexes decrease, and the microstructure alterations of both the spleen and the bone marrow. Furthermore, we found that the HENR-damaged hematopoiesis was greatly prevented by PD treatment in such aspects as bone marrow hemocytogenesis, splenocytes balancing, or even the peripheral blood cellularity. The additional IHC investigations revealed that PD could exert potent hematopoiesis-promoting effects against HENR via suppressing apoptosis and promoting the antioxidative enzymes such as HO-1.
url http://dx.doi.org/10.1155/2020/8905860
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