Author
Listed:
- Norah M. E. Fogarty
(Human Embryo and Stem Cell Laboratory, The Francis Crick Institute)
- Afshan McCarthy
(Human Embryo and Stem Cell Laboratory, The Francis Crick Institute)
- Kirsten E. Snijders
(NIHR Cambridge Biomedical Research Centre hIPSC Core Facility, University of Cambridge, Cambridge Biomedical Campus)
- Benjamin E. Powell
(Sex Chromosome Biology Laboratory, The Francis Crick Institute)
- Nada Kubikova
(University of Oxford, John Radcliffe Hospital)
- Paul Blakeley
(Human Embryo and Stem Cell Laboratory, The Francis Crick Institute)
- Rebecca Lea
(Human Embryo and Stem Cell Laboratory, The Francis Crick Institute)
- Kay Elder
(Bourn Hall Clinic)
- Sissy E. Wamaitha
(Human Embryo and Stem Cell Laboratory, The Francis Crick Institute)
- Daesik Kim
(Seoul National University)
- Valdone Maciulyte
(Sex Chromosome Biology Laboratory, The Francis Crick Institute)
- Jens Kleinjung
(Bioinformatics Facility, The Francis Crick Institute)
- Jin-Soo Kim
(Seoul National University
Center for Genome Engineering, Institute for Basic Science)
- Dagan Wells
(University of Oxford, John Radcliffe Hospital)
- Ludovic Vallier
(NIHR Cambridge Biomedical Research Centre hIPSC Core Facility, University of Cambridge, Cambridge Biomedical Campus
Wellcome Trust Sanger Institute, Wellcome Genome Campus
Wellcome Trust and MRC Cambridge Stem Cell Institute and Biomedical Research Centre, Anne McLaren Laboratory, University of Cambridge)
- Alessandro Bertero
(Wellcome Trust and MRC Cambridge Stem Cell Institute and Biomedical Research Centre, Anne McLaren Laboratory, University of Cambridge
University of Washington)
- James M. A. Turner
(Sex Chromosome Biology Laboratory, The Francis Crick Institute)
- Kathy K. Niakan
(Human Embryo and Stem Cell Laboratory, The Francis Crick Institute)
Abstract
Despite their fundamental biological and clinical importance, the molecular mechanisms that regulate the first cell fate decisions in the human embryo are not well understood. Here we use CRISPR–Cas9-mediated genome editing to investigate the function of the pluripotency transcription factor OCT4 during human embryogenesis. We identified an efficient OCT4-targeting guide RNA using an inducible human embryonic stem cell-based system and microinjection of mouse zygotes. Using these refined methods, we efficiently and specifically targeted the gene encoding OCT4 (POU5F1) in diploid human zygotes and found that blastocyst development was compromised. Transcriptomics analysis revealed that, in POU5F1-null cells, gene expression was downregulated not only for extra-embryonic trophectoderm genes, such as CDX2, but also for regulators of the pluripotent epiblast, including NANOG. By contrast, Pou5f1-null mouse embryos maintained the expression of orthologous genes, and blastocyst development was established, but maintenance was compromised. We conclude that CRISPR–Cas9-mediated genome editing is a powerful method for investigating gene function in the context of human development.
Suggested Citation
Norah M. E. Fogarty & Afshan McCarthy & Kirsten E. Snijders & Benjamin E. Powell & Nada Kubikova & Paul Blakeley & Rebecca Lea & Kay Elder & Sissy E. Wamaitha & Daesik Kim & Valdone Maciulyte & Jens K, 2017.
"Genome editing reveals a role for OCT4 in human embryogenesis,"
Nature, Nature, vol. 550(7674), pages 67-73, October.
Handle:
RePEc:nat:nature:v:550:y:2017:i:7674:d:10.1038_nature24033
DOI: 10.1038/nature24033
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