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Human liver chimeric mouse model based on diphtheria toxin-induced liver injury 被引量:4
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作者 Xiao-Nan Ren Rong-Rong Ren +7 位作者 Hua Yang Bo-Yin Qin Xiu-Hua Peng Li-Xiang Chen Shun Li Meng-Jiao Yuan Chao Wang Xiao-Hui Zhou 《World Journal of Gastroenterology》 SCIE CAS 2017年第27期4935-4941,共7页
AIM To establish an inducible liver injury mouse model and transplant human hepatocytes to obtain liverhumanized mice.METHODS We crossed three mouse strains,including albumin(Alb)-cre transgenic mice,inducible diphthe... AIM To establish an inducible liver injury mouse model and transplant human hepatocytes to obtain liverhumanized mice.METHODS We crossed three mouse strains,including albumin(Alb)-cre transgenic mice,inducible diphtheria toxin receptor(DTR) transgenic mice and severe combined immune deficient(SCID)-beige mice,to create Alb-cre/DTR/SCID-beige(ADSB) mice,which coincidentally harbor Alb-cre and DTR transgenes and are immunodeficient. As the Cre expression is driven by the liver-specific promoter Alb(encoding ALB),the DTR stop signal flanked by two lox P sites can be deleted in the ADSB mice,resulting in DTR expression in the liver. ADSB mice aged 8-10 wk were injected intraperitoneally(i.p.) with diphtheria toxin(DT) and liver damage was assessed by serum alanine aminotransferase(ALT) level. Two days later,mouse livers were sampled for histological analysis,and human hepatocytes were transplanted into the livers on the same day. A human ALB enzyme-linked immunosorbent assay was performed 7,14,21 and 28 d after transplantation. Human CD68 immunohistochemistry was performed 30 and 90 d after transplantation.RESULTS We crossed Alb-cre with DTR and SCID-beige mice to obtain ADSB mice. These mice were found to have liver damage 4 d after i.p. injection of 2.5 ng/g bodyweight DT. Bodyweight began to decrease on day 2,increased on day 7,and was lowest on day 4(range,10.5%-13.4%). Serum ALT activity began to increase on day 2 and reached a peak value of 289.7 ± 16.2 IU/m L on day 4,then returned to background values on day 7. After transplantation of human liver cells,peripheral blood human ALB level was 1580 ± 454.8 ng/m L(range,750.2-3064.9 ng/m L) after 28 d and Kupffer cells were present in the liver at 30 d in ADSB mice.CONCLUSION Human hepatocytes were successfully repopulated in the livers of ADSB mice. The inducible mouse model of humanized liver in ADSB mice may have functional applications,such as hepatocyte transplantation,hepatic regeneration and drug metabolism. 展开更多
关键词 Liver disease Liver injury Diphtheria toxin Liver chimeric mouse model
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Evolving Models and Tools for Microglial Studies in the Central Nervous System 被引量:3
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作者 Yang Zhang Donghong Cui 《Neuroscience Bulletin》 SCIE CAS CSCD 2021年第8期1218-1233,共16页
Microglia play multiple roles in such processes as brain development,homeostasis,and pathology.Due to their diverse mechanisms of functions,the complex sub-classifications,and the large differences between different s... Microglia play multiple roles in such processes as brain development,homeostasis,and pathology.Due to their diverse mechanisms of functions,the complex sub-classifications,and the large differences between different species,especially compared with humans,very different or even opposite conclusions can be drawn from studies with different research models.The choice of appropriate research models and the associated tools are thus key ingredients of studies on microglia.Mice are the most commonly used animal models.In this review,we summarize in vitro and in vivo models of mouse and human-derived microglial research models,including microglial cell lines,primary microglia,induced microglia-like cells,transgenic mice,human-mouse chimeric models,and microglial replacement models.We also summarize recent developments in novel single-cell and in vivo imaging technologies.We hope our review can serve as an efficient reference for the future study of microglia. 展开更多
关键词 Microglial cell lines Primary microglia Induced microglia-like cells Transgenic mice Human-mouse chimeric models Microglial replacement Single-cell technology In vivo imaging
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