Attenuation of zinc finger nuclease toxicity by small-molecule regulation of protein levels.

Shondra M Pruett-Miller,David W Reading,Shaina N Porter,Matthew H Porteus,Gregory S Barsh

doi:10.1371/journal.pgen.1000376

Shondra M Pruett-Miller, David W Reading + Show 3 more

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https://doi.org/10.1371/journal.pgen.1000376

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Abstract

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.

Highlights

Homologous recombination is a natural mechanism that cells use for a variety of processes including double strand break (DSB) repair [1]
Zinc finger nucleases (ZFNs) are chimeric proteins that consist of a specific DNA binding domain made up of tandem zinc finger binding motifs fused to a non-specifc cleavage domain from the FokI restriction endonuclease
We demonstrate that off-target effects can be reduced without compromising gene targeting efficiency by using small molecules to limit the maximal expression of the ZFNs to a narrow window

Summary

Introduction

Homologous recombination is a natural mechanism that cells use for a variety of processes including double strand break (DSB) repair [1]. Gene targeting uses homologous recombination to make a precise genomic change and is commonly used experimentally in a variety of cells including yeast and murine embryonic stem cells. The rate of gene targeting, can be increased (to over 1022) by creating a gene specific DSB [2,6,7,8,9,10]. Zinc Finger Nucleases (ZFNs) can create site-specific DSBs and have been shown to increase the rate of gene targeting by over 5 orders of magnitude [11,12,13]. Several studies suggest that this toxicity is caused by ‘‘off-target’’

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