CRISPR/Cas9 cleavage of viral DNA efficiently suppresses hepatitis B virus

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作者
Vyas Ramanan
Amir Shlomai
David B.T. Cox
Robert E. Schwartz
Eleftherios Michailidis
Ankit Bhatta
David A. Scott
Feng Zhang
Charles M. Rice
Sangeeta N. Bhatia
机构
[1] Massachusetts Institute of Technology,Department of Health Sciences and Technology
[2] Laboratory of Virology and Infectious Disease,Department of Medicine
[3] Center for the Study of Hepatitis C,Division of Gastroenterology and Hepatology
[4] The Rockefeller University,Department of Electrical Engineering and Computer Science
[5] Brigham and Women’s Hospital,Department of Biology
[6] Weill Cornell Medical College,Department of Brain and Cognitive Sciences
[7] Massachusetts Institute of Technology,The Liver Institute, Rabin Medical Center, Beilinson hospital and the Sackler Faculty of Medicie
[8] Broad Institute,undefined
[9] Howard Hughes Medical Institute,undefined
[10] Koch Institute for Integrative Cancer Research,undefined
[11] Massachusetts Institute of Technology,undefined
[12] Massachusetts Institute of Technology,undefined
[13] Massachusetts Institute of Technology,undefined
[14] McGovern Institute for Brain Research,undefined
[15] Massachusetts Institute of Technology,undefined
[16] Tel-Aviv University,undefined
来源
Scientific Reports | / 5卷
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摘要
Chronic hepatitis B virus (HBV) infection is prevalent, deadly and seldom cured due to the persistence of viral episomal DNA (cccDNA) in infected cells. Newly developed genome engineering tools may offer the ability to directly cleave viral DNA, thereby promoting viral clearance. Here, we show that the CRISPR/Cas9 system can specifically target and cleave conserved regions in the HBV genome, resulting in robust suppression of viral gene expression and replication. Upon sustained expression of Cas9 and appropriately chosen guide RNAs, we demonstrate cleavage of cccDNA by Cas9 and a dramatic reduction in both cccDNA and other parameters of viral gene expression and replication. Thus, we show that directly targeting viral episomal DNA is a novel therapeutic approach to control the virus and possibly cure patients.
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