5 years ago

Correction of a pathogenic gene mutation in human embryos

Hong Ma, Xun Xu, Yeonmi Lee, Sang-Tae Kim, Sanjiv Kaul, Hayley Darby, Dongmei Ji, Sang-Wook Park, Amy Koski, Don P. Wolf, David M. Lee, Jianhui Gong, Daesik Kim, Ying Li, Nuria Marti-Gutierrez, Diana H. Wu, A.-Reum Park, Tomonari Hayama, Eunju Kang, Paula Amato, Ying Gu, Juan Carlos Izpisua Belmonte, Stephen B. Heitner, Sacha A. Krieg, Crystal Van Dyken, Keiichiro Suzuki, David Battaglia, Jun Wu, Riffat Ahmed, Shoukhrat Mitalipov, Jin-Soo Kim

Genome editing has potential for the targeted correction of germline mutations. Here we describe the correction of the heterozygous MYBPC3 mutation in human preimplantation embryos with precise CRISPR–Cas9-based targeting accuracy and high homology-directed repair efficiency by activating an endogenous, germline-specific DNA repair response. Induced double-strand breaks (DSBs) at the mutant paternal allele were predominantly repaired using the homologous wild-type maternal gene instead of a synthetic DNA template. By modulating the cell cycle stage at which the DSB was induced, we were able to avoid mosaicism in cleaving embryos and achieve a high yield of homozygous embryos carrying the wild-type MYBPC3 gene without evidence of off-target mutations. The efficiency, accuracy and safety of the approach presented suggest that it has potential to be used for the correction of heritable mutations in human embryos by complementing preimplantation genetic diagnosis. However, much remains to be considered before clinical applications, including the reproducibility of the technique with other heterozygous mutations.

Publisher URL: http://dx.doi.org/10.1038/nature23305

DOI: 10.1038/nature23305

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