Vectorology - GEG Tech top picks

Although CRISPR/Cas9 mainly generates short insertions or deletions at the target site, it can also make large deletions of DNA around the specific target site. These large deletions pose safety concerns and can reduce the efficiency of functional editing. The WFIRM team is looking at ways to reduce the risk of this happening. The research described in their recent paper, published recently in Nucleic Acids Research, aimed to combat the generation of unpredictable long DNA deletions on target and find a way to prevent this, a key step towards the development of gene editing therapies to treat genetic diseases. The team evaluated a variety of human cells and genes of interest and found that fusing DNA polymerase I or the Klenow fragment to the Cas9 enzyme minimised large, unanticipated deletions of genomic DNA without sacrificing the efficiency of genome editing. On the contrary, it even increased editing efficiency in primary human cells.  

CRISPR-Cas9 is a powerful genome editing technology, yet with off-target effects. Truncated sgRNAs (17nt) have been found to decrease off-target cleavage without affecting on-target disruption in 293T cells. In this work, the authors showed that both 17nt and 20nt sgRNAs expressed by lentiviral vectors induce ~95% knockout (KO) in 293T cells, whereas the KO efficiencies are significantly lower in iPSCs (60–70%) and MSCs (65–75%). Furthermore, they observed a decrease of 10–20 percentage points in KO efficiency with 17nt sgRNAs compared to full-length sgRNAs in both iPSCs and MSCs. These results indicate the importance of balancing on-target gene cleavage potency with off-target effects: when efficacy is a major concern such as genome editing in stem cells, the use of 20nt sgRNAs is preferable.