LAUSR

The clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated proteins 9 (Cas9), a gene-editing technology, has been extensively applied as a tool for genetic engineering in basic research. Efficient genome engineering has been performed in viruses, human cells, bacteria, fungi, plants and animals, etc. Currently, it has been employed to edit human viruses for studying viral molecular biology, pathogenesis and oncogenesis, and facilitate the development of antiviral agents and vaccine. The virus is ubiquitous worldwide and elicits global health problems, many human diseases are associated with virus infections. Although traditional drugs can be used to treat or prevent productive viral infections, their efficacy is limited because of toxicity, side effects and other problems. Additionally, no current drugs are approved to be indicated for latent infections. Therefore, the next highlight is to develop antiviral approaches to against both productive and latent infections. Fortunately, CRISPR has been successfully applied in the removal of human viruses ex vivo and/or in vivo, and has the potential to be used to manufacture antiviral agents for clinical application. CRISPR/Cas9 is promising in applications, even though some technical challenges, safety concerns, ethic concerns need to be improved. In this article, the discovery and application of genome editing and removal of human viruses based on CRISPR are explored. Additionally, we evaluate the prospects and limitations of this novel antiviral strategies.