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转基因Gfrp基因敲入小鼠的特性:四氢生物蝶呤对正常组织辐射反应调节的影响

Characterization of transgenic Gfrp knock-in mice: implications for tetrahydrobiopterin in modulation of normal tissue radiation responses.

作者信息

Pathak Rupak, Pawar Snehalata A, Fu Qiang, Gupta Prem K, Berbée Maaike, Garg Sarita, Sridharan Vijayalakshmi, Wang Wenze, Biju Prabath G, Krager Kimberly J, Boerma Marjan, Ghosh Sanchita P, Cheema Amrita K, Hendrickson Howard P, Aykin-Burns Nukhet, Hauer-Jensen Martin

机构信息

1 Division of Radiation Health, University of Arkansas for Medical Sciences , Little Rock, Arkansas.

出版信息

Antioxid Redox Signal. 2014 Mar 20;20(9):1436-46. doi: 10.1089/ars.2012.5025. Epub 2013 May 3.

DOI:10.1089/ars.2012.5025
PMID:23521531
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3936502/
Abstract

AIMS

The free radical scavenger and nitric oxide synthase cofactor, 5,6,7,8-tetrahydrobiopterin (BH4), plays a well-documented role in many disorders associated with oxidative stress, including normal tissue radiation responses. Radiation exposure is associated with decreased BH4 levels, while BH4 supplementation attenuates aspects of radiation toxicity. The endogenous synthesis of BH4 is catalyzed by the enzyme guanosine triphosphate cyclohydrolase I (GTPCH1), which is regulated by the inhibitory GTP cyclohydrolase I feedback regulatory protein (GFRP). We here report and characterize a novel, Cre-Lox-driven, transgenic mouse model that overexpresses Gfrp.

RESULTS

Compared to control littermates, transgenic mice exhibited high transgene copy numbers, increased Gfrp mRNA and GFRP expression, enhanced GFRP-GTPCH1 interaction, reduced BH4 levels, and low glutathione (GSH) levels and differential mitochondrial bioenergetic profiles. After exposure to total body irradiation, transgenic mice showed decreased BH4/7,8-dihydrobiopterin ratios, increased vascular oxidative stress, and reduced white blood cell counts compared with controls.

INNOVATION AND CONCLUSION

This novel Gfrp knock-in transgenic mouse model allows elucidation of the role of GFRP in the regulation of BH4 biosynthesis. This model is a valuable tool to study the involvement of BH4 in whole body and tissue-specific radiation responses and other conditions associated with oxidative stress.

摘要

目的

自由基清除剂及一氧化氮合酶辅因子5,6,7,8 - 四氢生物蝶呤(BH4)在许多与氧化应激相关的疾病中发挥着有充分文献记载的作用,包括正常组织的辐射反应。辐射暴露与BH4水平降低有关,而补充BH4可减轻辐射毒性的某些方面。BH4的内源性合成由鸟苷三磷酸环水解酶I(GTPCH1)催化,该酶受抑制性GTP环水解酶I反馈调节蛋白(GFRP)调控。我们在此报告并描述一种新型的、由Cre - Lox驱动的过表达Gfrp的转基因小鼠模型。

结果

与对照同窝小鼠相比,转基因小鼠表现出高转基因拷贝数、Gfrp mRNA和GFRP表达增加、GFRP - GTPCH1相互作用增强、BH4水平降低、谷胱甘肽(GSH)水平降低以及线粒体生物能量谱差异。全身照射后,与对照组相比,转基因小鼠的BH4/7,8 - 二氢生物蝶呤比值降低、血管氧化应激增加且白细胞计数减少。

创新与结论

这种新型的Gfrp基因敲入转基因小鼠模型有助于阐明GFRP在BH4生物合成调控中的作用。该模型是研究BH4在全身和组织特异性辐射反应以及其他与氧化应激相关疾病中的作用的宝贵工具。

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