Shuga J, Zhang J, Samson L D, Lodish H F, Griffith L G
Department of Chemical Engineering, Whitehead Institute for Biomedical Research, Center for Environmental Health Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
Proc Natl Acad Sci U S A. 2007 May 22;104(21):8737-42. doi: 10.1073/pnas.0701829104. Epub 2007 May 14.
The goal of this study was to create an in vitro cell culture system that captures essential features of the in vivo erythroid micronucleus (MN) genotoxicity assay, thus enabling increased throughput and controlled studies of the hematopoietic DNA damage response. We show that adult bone marrow (BM) cultures respond to erythropoietin, the principal hormone that stimulates erythropoiesis, with physiological erythropoietic proliferation, differentiation, and enucleation. We then show that this in vitro erythropoietic system clearly signals exposure to genotoxicants through erythroid MN formation. Furthermore, we determined that DNA repair-deficient (MGMT(-/-)) BM displayed sensitivity to genotoxic exposure in vivo compared with WT BM and that this phenotypic response was reflected in erythropoietic cultures. These findings suggest that this in vitro erythroid MN assay is capable of screening for genotoxicity on BM in a physiologically reflective manner. Finally, responses to genotoxicants during erythroid differentiation varied with exposure time, demonstrating that this system can be used to study the effect of DNA damage at specific developmental stages.
本研究的目标是创建一种体外细胞培养系统,该系统能捕捉体内红细胞微核(MN)遗传毒性试验的基本特征,从而提高通量并对造血DNA损伤反应进行可控研究。我们发现,成年骨髓(BM)培养物对刺激红细胞生成的主要激素促红细胞生成素产生反应,表现出生理性的红细胞生成增殖、分化和去核。然后我们表明,这种体外红细胞生成系统通过红细胞MN的形成明确地指示了对遗传毒性剂的暴露。此外,我们确定与野生型BM相比,DNA修复缺陷型(MGMT(-/-))BM在体内对遗传毒性暴露表现出敏感性,并且这种表型反应在红细胞生成培养物中也有体现。这些发现表明,这种体外红细胞MN试验能够以生理反映性的方式筛选BM的遗传毒性。最后,红细胞分化过程中对遗传毒性剂的反应随暴露时间而变化,这表明该系统可用于研究特定发育阶段DNA损伤的影响。