通过巨核酸酶诱导双链断裂在小鼠肝脏中实现高效的全基因组靶向重组。

Efficient in toto targeted recombination in mouse liver by meganuclease-induced double-strand break.

作者信息

Gouble Agnès, Smith Julianne, Bruneau Sylvia, Perez Christophe, Guyot Valérie, Cabaniols Jean-Pierre, Leduc Sophie, Fiette Laurence, Avé Patrick, Micheau Béatrice, Duchateau Philippe, Pâques Frédéric

机构信息

CELLECTIS S.A., 102 route de Noisy, 93235 Romainville, France.

出版信息

J Gene Med. 2006 May;8(5):616-22. doi: 10.1002/jgm.879.

DOI:10.1002/jgm.879

PMID:16475243

Abstract

BACKGROUND

Sequence-specific endonucleases with large recognition sites can cleave DNA in living cells, and, as a consequence, stimulate homologous recombination (HR) up to 10 000-fold. The recent development of artificial meganucleases with chosen specificities has provided the potential to target any chromosomal locus. Thus, they may represent a universal genome engineering tool and seem to be very promising for acute gene therapy. However, in toto applications depend on the ability to target somatic tissues as well as the proficiency of somatic cells to perform double-strand break (DSB)-induced HR.

METHODS

In order to investigate DSB-induced HR in toto, we have designed transgenic mouse lines carrying a LagoZ gene interrupted by one I-SceI cleavage site surrounded by two direct repeats. The LagoZ gene can be rescued upon cleavage by I-SceI and HR between the two repeats in a process called single-strand annealing. beta-Galactosidase activity is monitored in liver after tail vein injection of adenovirus expressing the meganuclease I-SceI.

RESULTS

In toto staining revealed a strong dotted pattern in all animals injected with adenovirus expressing I-SceI. In contrast, no staining could be detected in the control. beta-Galactosidase activity in liver extract, tissue section staining, and PCR analysis confirmed the presence of the recombined LagoZ gene.

CONCLUSIONS

We demonstrate for the first time that meganucleases can be successfully delivered in animal and induce targeted genomic recombination in mice liver in toto. These results are an essential step towards the use of designed meganucleases and show the high potential of this technology in the field of gene therapy.

摘要

背景

具有大识别位点的序列特异性核酸内切酶可在活细胞中切割DNA，从而将同源重组（HR）刺激高达10000倍。最近开发的具有特定特异性的人工巨型核酸酶提供了靶向任何染色体位点的潜力。因此，它们可能代表一种通用的基因组工程工具，并且似乎在急性基因治疗方面非常有前景。然而，总体应用取决于靶向体细胞组织的能力以及体细胞执行双链断裂（DSB）诱导的HR的熟练程度。

方法

为了在整体水平上研究DSB诱导的HR，我们设计了转基因小鼠品系，其携带的LagoZ基因被一个I-SceI切割位点中断，该切割位点被两个直接重复序列包围。在一个称为单链退火的过程中，I-SceI切割后，LagoZ基因可通过两个重复序列之间的HR得以拯救。尾静脉注射表达巨型核酸酶I-SceI的腺病毒后，监测肝脏中的β-半乳糖苷酶活性。

结果

整体染色显示，在所有注射表达I-SceI的腺病毒的动物中均出现强烈的点状图案。相比之下，在对照中未检测到染色。肝脏提取物中的β-半乳糖苷酶活性、组织切片染色和PCR分析证实了重组LagoZ基因的存在。

结论

我们首次证明巨型核酸酶可以成功递送至动物体内，并在小鼠肝脏中诱导整体靶向基因组重组。这些结果是朝着使用设计的巨型核酸酶迈出的重要一步，并显示了该技术在基因治疗领域的巨大潜力。

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通过巨核酸酶诱导双链断裂在小鼠肝脏中实现高效的全基因组靶向重组。

Efficient in toto targeted recombination in mouse liver by meganuclease-induced double-strand break.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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