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Functional Correction of Large Factor VIII Gene Chromosomal Inversions in Hemophilia A Patient-Derived iPSCs Using CRISPR-Cas9
(Korea Researchers : Chul-Yong Park, Duk Hyoung Kim, Jeong Sang Son, Jin Jea Sung, Jaehun Lee, Sangsu Bae, Jong-Hoon Kim, Dong-Wook Kim, Jin-Soo Kim)

Highlights
•CRISPR-Cas9 and targeted sgRNAs can revert large inversions in hemophilia A iPSCs
•Endothelial cells derived from corrected iPSCs express correctly spliced Factor VIII
•Transplantation of corrected iPSCs can rescue injury mortality in hemophiliac mice
•Whole-genome and targeted deep sequencing did not detect off-target mutations
Summary
Hemophilia A is an X-linked genetic disorder caused by mutations in the F8 gene, which encodes the blood coagulation factor VIII. Almost half of all severe hemophilia A cases result from two gross (140-kbp or 600-kbp) chromosomal inversions that involve introns 1 and 22 of the F8 gene, respectively. We derived induced pluripotent stem cells (iPSCs) from patients with these inversion genotypes and used CRISPR-Cas9 nucleases to revert these chromosomal segments back to the WT situation. We isolated inversion-corrected iPSCs with frequencies of up to 6.7% without detectable off-target mutations based on whole-genome sequencing or targeted deep sequencing. Endothelial cells differentiated from corrected iPSCs expressed the F8 gene and functionally rescued factor VIII deficiency in an otherwise lethal mouse model of hemophilia. Our results therefore provide a proof of principle for functional correction of large chromosomal rearrangements in patient-derived iPSCs and suggest potential therapeutic applications.



SEE MORE : http://www.cell.com/cell-stem-cell/abstract/S1934-5909(15)00300-8