Pruett-Miller Shondra M, Reading David W, Porter Shaina N, Porteus Matthew H
Department of Pediatrics, University of Texas Southwestern Medical Center, Dallas, Texas, United States of America.
PLoS Genet. 2009 Feb;5(2):e1000376. doi: 10.1371/journal.pgen.1000376. Epub 2009 Feb 13.
Zinc finger nucleases (ZFNs) have been used successfully to create genome-specific double-strand breaks and thereby stimulate gene targeting by several thousand fold. ZFNs are chimeric proteins composed of a specific DNA-binding domain linked to a non-specific DNA-cleavage domain. By changing key residues in the recognition helix of the specific DNA-binding domain, one can alter the ZFN binding specificity and thereby change the sequence to which a ZFN pair is being targeted. For these and other reasons, ZFNs are being pursued as reagents for genome modification, including use in gene therapy. In order for ZFNs to reach their full potential, it is important to attenuate the cytotoxic effects currently associated with many ZFNs. Here, we evaluate two potential strategies for reducing toxicity by regulating protein levels. Both strategies involve creating ZFNs with shortened half-lives and then regulating protein level with small molecules. First, we destabilize ZFNs by linking a ubiquitin moiety to the N-terminus and regulate ZFN levels using a proteasome inhibitor. Second, we destabilize ZFNs by linking a modified destabilizing FKBP12 domain to the N-terminus and regulate ZFN levels by using a small molecule that blocks the destabilization effect of the N-terminal domain. We show that by regulating protein levels, we can maintain high rates of ZFN-mediated gene targeting while reducing ZFN toxicity.
锌指核酸酶(ZFNs)已成功用于产生基因组特异性双链断裂,从而将基因靶向效率提高数千倍。ZFNs是嵌合蛋白,由与非特异性DNA切割结构域相连的特定DNA结合结构域组成。通过改变特定DNA结合结构域识别螺旋中的关键残基,可以改变ZFN的结合特异性,进而改变ZFN对靶向的序列。由于这些及其他原因,ZFNs正被作为基因组修饰试剂进行研究,包括用于基因治疗。为了使ZFNs发挥其全部潜力,减弱目前许多ZFNs所具有的细胞毒性作用很重要。在此,我们评估两种通过调节蛋白质水平来降低毒性的潜在策略。这两种策略都涉及创建半衰期缩短的ZFNs,然后用小分子调节蛋白质水平。首先,我们通过将泛素部分连接到N端来使ZFNs不稳定,并使用蛋白酶体抑制剂调节ZFN水平。其次,我们通过将修饰的不稳定FKBP12结构域连接到N端来使ZFNs不稳定,并使用一种小分子来阻断N端结构域的去稳定化作用,从而调节ZFN水平。我们表明,通过调节蛋白质水平,我们可以在降低ZFN毒性的同时维持ZFN介导的基因靶向的高发生率。
