An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation

Chronic hepatitis B infection remains incurable because HBV cccDNA can persist indefinitely in patients recovering from acute HBV infection. Given the incidence of HBV infection and the shortcomings of current therapeutic options, a novel antiviral strategy is urgently needed. To inactivate HBV repl...

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Autores principales: Li, Hao, Sheng, Chunyu, Liu, Hongbo, Liu, Guangze, Du, Xinying, Du, Juan, Zhan, Linsheng, Li, Peng, Yang, Chaojie, Qi, Lihua, Wang, Jian, Yang, Xiaoxia, Jia, Leili, Xie, Jing, Wang, Ligui, Hao, Rongzhang, Xu, Dongping, Tong, Yigang, Zhou, Yusen, Zhou, Jianjun, Sun, Yansong, Li, Qiao, Qiu, Shaofu, Song, Hongbin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Ivyspring International Publisher 2016
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4997054/
https://www.ncbi.nlm.nih.gov/pubmed/27570484
http://dx.doi.org/10.7150/ijbs.16064
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author Li, Hao
Sheng, Chunyu
Liu, Hongbo
Liu, Guangze
Du, Xinying
Du, Juan
Zhan, Linsheng
Li, Peng
Yang, Chaojie
Qi, Lihua
Wang, Jian
Yang, Xiaoxia
Jia, Leili
Xie, Jing
Wang, Ligui
Hao, Rongzhang
Xu, Dongping
Tong, Yigang
Zhou, Yusen
Zhou, Jianjun
Sun, Yansong
Li, Qiao
Qiu, Shaofu
Song, Hongbin
author_facet Li, Hao
Sheng, Chunyu
Liu, Hongbo
Liu, Guangze
Du, Xinying
Du, Juan
Zhan, Linsheng
Li, Peng
Yang, Chaojie
Qi, Lihua
Wang, Jian
Yang, Xiaoxia
Jia, Leili
Xie, Jing
Wang, Ligui
Hao, Rongzhang
Xu, Dongping
Tong, Yigang
Zhou, Yusen
Zhou, Jianjun
Sun, Yansong
Li, Qiao
Qiu, Shaofu
Song, Hongbin
author_sort Li, Hao
collection PubMed
description Chronic hepatitis B infection remains incurable because HBV cccDNA can persist indefinitely in patients recovering from acute HBV infection. Given the incidence of HBV infection and the shortcomings of current therapeutic options, a novel antiviral strategy is urgently needed. To inactivate HBV replication and destroy the HBV genome, we employed genome editing tool CRISPR/Cas9. Specifically, we found a CRISPR/Cas9 system (gRNA-S4) that effectively targeted the HBsAg region and could suppress efficiently viral replication with minimal off-target effects and impact on cell viability. The mutation mediated by CRISPR/Cas9 in HBV DNA both in a stable HBV-producing cell line and in HBV transgenic mice had been confirmed and evaluated using deep sequencing. In addition, we demonstrated the reduction of HBV replication was caused by the mutation of S4 site through three S4 region-mutated monoclonal cells. Besides, the gRNA-S4 system could also reduce serum surface-antigen levels by 99.91 ± 0.05% and lowered serum HBV DNA level below the negative threshold in the HBV hydrodynamics mouse model. Together, these findings indicate that the S4 region may be an ideal target for the development of innovative therapies against HBV infection using CRISPR/Cas9.
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spelling pubmed-49970542016-08-26 An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation Li, Hao Sheng, Chunyu Liu, Hongbo Liu, Guangze Du, Xinying Du, Juan Zhan, Linsheng Li, Peng Yang, Chaojie Qi, Lihua Wang, Jian Yang, Xiaoxia Jia, Leili Xie, Jing Wang, Ligui Hao, Rongzhang Xu, Dongping Tong, Yigang Zhou, Yusen Zhou, Jianjun Sun, Yansong Li, Qiao Qiu, Shaofu Song, Hongbin Int J Biol Sci Research Paper Chronic hepatitis B infection remains incurable because HBV cccDNA can persist indefinitely in patients recovering from acute HBV infection. Given the incidence of HBV infection and the shortcomings of current therapeutic options, a novel antiviral strategy is urgently needed. To inactivate HBV replication and destroy the HBV genome, we employed genome editing tool CRISPR/Cas9. Specifically, we found a CRISPR/Cas9 system (gRNA-S4) that effectively targeted the HBsAg region and could suppress efficiently viral replication with minimal off-target effects and impact on cell viability. The mutation mediated by CRISPR/Cas9 in HBV DNA both in a stable HBV-producing cell line and in HBV transgenic mice had been confirmed and evaluated using deep sequencing. In addition, we demonstrated the reduction of HBV replication was caused by the mutation of S4 site through three S4 region-mutated monoclonal cells. Besides, the gRNA-S4 system could also reduce serum surface-antigen levels by 99.91 ± 0.05% and lowered serum HBV DNA level below the negative threshold in the HBV hydrodynamics mouse model. Together, these findings indicate that the S4 region may be an ideal target for the development of innovative therapies against HBV infection using CRISPR/Cas9. Ivyspring International Publisher 2016-08-05 /pmc/articles/PMC4997054/ /pubmed/27570484 http://dx.doi.org/10.7150/ijbs.16064 Text en © Ivyspring International Publisher. Reproduction is permitted for personal, noncommercial use, provided that the article is in whole, unmodified, and properly cited. See http://ivyspring.com/terms for terms and conditions.
spellingShingle Research Paper
Li, Hao
Sheng, Chunyu
Liu, Hongbo
Liu, Guangze
Du, Xinying
Du, Juan
Zhan, Linsheng
Li, Peng
Yang, Chaojie
Qi, Lihua
Wang, Jian
Yang, Xiaoxia
Jia, Leili
Xie, Jing
Wang, Ligui
Hao, Rongzhang
Xu, Dongping
Tong, Yigang
Zhou, Yusen
Zhou, Jianjun
Sun, Yansong
Li, Qiao
Qiu, Shaofu
Song, Hongbin
An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation
title An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation
title_full An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation
title_fullStr An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation
title_full_unstemmed An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation
title_short An Effective Molecular Target Site in Hepatitis B Virus S Gene for Cas9 Cleavage and Mutational Inactivation
title_sort effective molecular target site in hepatitis b virus s gene for cas9 cleavage and mutational inactivation
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4997054/
https://www.ncbi.nlm.nih.gov/pubmed/27570484
http://dx.doi.org/10.7150/ijbs.16064
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