Aberrant transcription and post-transcriptional processing of hepatitis C virus non-structural genes in transgenic mice

Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a pressing need for a convenient animal model that can mimic the clinical disease and aid the evaluation of treatment strategies. Although some...

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Published in	Transgenic research Vol. 20; no. 6; pp. 1273 - 1284
Main Authors	Desai, Mayura M, Tumurbataar, Batbayar, Zhang, Yueqing, Chan, Lee-Nien Lillian, Sun, Jiaren, Chan, Teh-sheng
Format	Journal Article
Language	English
Published	Dordrecht Springer-Verlag 01.12.2011 Springer Netherlands Springer Springer Nature B.V
Subjects	Animal Genetics and Genomics Animal models Animals Base Sequence Biological and medical sciences Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biotechnology Blotting, Northern Cell Line Cell Nucleus Cell Nucleus - genetics Cell Nucleus - metabolism Chronic infection Codon, Terminator Codon, Terminator - genetics Codon, Terminator - metabolism complementary DNA Female Frameshifting, Ribosomal Fundamental and applied biological sciences. Psychology gene expression Gene Expression Regulation, Viral Genetic Engineering Genetic technics genetics Hepacivirus Hepacivirus - genetics Hepacivirus - pathogenicity Hepatitis C virus Humans Language Life Sciences liver Liver - metabolism Liver - virology Liver diseases Male metabolism Methods. Procedures. Technologies Mice Mice, Inbred C57BL Mice, Transgenic Molecular Medicine Molecular Sequence Data Northern blotting Nuclei Original Paper pathogenicity Plant Genetics and Genomics Plasmids Plasmids - genetics Plasmids - metabolism polyproteins Post-transcription proteins rapid amplification of cDNA ends Reading Frames Recombination RNA RNA processing RNA Processing, Post-Transcriptional RNA, Messenger RNA, Messenger - genetics RNA, Messenger - metabolism Stop codon trans-splicing Transcription transcription (genetics) Transcription initiation Transcription Initiation Site Transcription, Genetic Transgenes Transgenic animals and transgenic plants Transgenic mice Transgenics Translation translation (genetics) Viral Nonstructural Proteins Viral Nonstructural Proteins - genetics Viral Nonstructural Proteins - metabolism virology Transgenic mouse Hepatitis C virus Non-structural proteins Trans-splicing Aberrant transcription Splicing Transcription Rodentia Transgenic animal Protein Virus Vertebrata Mammalia Gene Mouse Flaviviridae Hepacivirus
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ISSN	0962-8819 1573-9368 1573-9368
DOI	10.1007/s11248-011-9494-x

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Abstract	Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a pressing need for a convenient animal model that can mimic the clinical disease and aid the evaluation of treatment strategies. Although some success has been achieved in transgenic approaches for development of rodent models of HCV, transgenic expression of the complete HCV polyprotein or an entire set of the viral non-structural (NS) proteins continues to be a serious challenge. Using northern blot and 5′ rapid amplification of cDNA ends (RACE), we unraveled two possible mechanisms that can impede HCV NS transgene expression in the mouse liver. Several truncated transcripts are produced from alternate transcription start sites along the HCV NS sequence within the murine environment, in vivo. Translation of these shorter transcripts is blocked either by the positioning of a contextual stop codon or through a shift in the reading frame. In addition, the complete NS transcript undergoes trans-splicing through 5′ recombination with a non-transgene-derived, spliced leader sequence that appends a potential stop codon upstream of the translation start. These findings thus demonstrate that HCV NS-derived transgenes are subject to aberrant transcriptional initiation and post-transcriptional processing in the nucleus of a mouse host. Strategies to prevent such aberrant transcription start/RNA processing might be key to the development of a successful HCV transgenic mouse model.
AbstractList	Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a pressing need for a convenient animal model that can mimic the clinical disease and aid the evaluation of treatment strategies. Although some success has been achieved in transgenic approaches for development of rodent models of HCV, transgenic expression of the complete HCV polyprotein or an entire set of the viral non-structural (NS) proteins continues to be a serious challenge. Using northern blot and 5′ rapid amplification of cDNA ends (RACE), we unraveled two possible mechanisms that can impede HCV NS transgene expression in the mouse liver. Several truncated transcripts are produced from alternate transcription start sites along the HCV NS sequence within the murine environment, in vivo. Translation of these shorter transcripts is blocked either by the positioning of a contextual stop codon or through a shift in the reading frame. In addition, the complete NS transcript undergoes trans-splicing through 5′ recombination with a non-transgene-derived, spliced leader sequence that appends a potential stop codon upstream of the translation start. These findings thus demonstrate that HCV NS-derived transgenes are subject to aberrant transcriptional initiation and post-transcriptional processing in the nucleus of a mouse host. Strategies to prevent such aberrant transcription start/RNA processing might be key to the development of a successful HCV transgenic mouse model. Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a pressing need for a convenient animal model that can mimic the clinical disease and aid the evaluation of treatment strategies. Although some success has been achieved in transgenic approaches for development of rodent models of HCV, transgenic expression of the complete HCV polyprotein or an entire set of the viral non-structural (NS) proteins continues to be a serious challenge. Using northern blot and 5' rapid amplification of cDNA ends (RACE), we unraveled two possible mechanisms that can impede HCV NS transgene expression in the mouse liver. Several truncated transcripts are produced from alternate transcription start sites along the HCV NS sequence within the murine environment, in vivo. Translation of these shorter transcripts is blocked either by the positioning of a contextual stop codon or through a shift in the reading frame. In addition, the complete NS transcript undergoes trans-splicing through 5' recombination with a non-transgene-derived, spliced leader sequence that appends a potential stop codon upstream of the translation start. These findings thus demonstrate that HCV NS-derived transgenes are subject to aberrant transcriptional initiation and post-transcriptional processing in the nucleus of a mouse host. Strategies to prevent such aberrant transcription start/RNA processing might be key to the development of a successful HCV transgenic mouse model.[PUBLICATION ABSTRACT] Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a pressing need for a convenient animal model that can mimic the clinical disease and aid the evaluation of treatment strategies. Although some success has been achieved in transgenic approaches for development of rodent models of HCV, transgenic expression of the complete HCV polyprotein or an entire set of the viral non-structural (NS) proteins continues to be a serious challenge. Using northern blot and 5' rapid amplification of cDNA ends (RACE), we unraveled two possible mechanisms that can impede HCV NS transgene expression in the mouse liver. Several truncated transcripts are produced from alternate transcription start sites along the HCV NS sequence within the murine environment, in vivo. Translation of these shorter transcripts is blocked either by the positioning of a contextual stop codon or through a shift in the reading frame. In addition, the complete NS transcript undergoes trans-splicing through 5' recombination with a non-transgene-derived, spliced leader sequence that appends a potential stop codon upstream of the translation start. These findings thus demonstrate that HCV NS-derived transgenes are subject to aberrant transcriptional initiation and post-transcriptional processing in the nucleus of a mouse host. Strategies to prevent such aberrant transcription start/RNA processing might be key to the development of a successful HCV transgenic mouse model.Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a pressing need for a convenient animal model that can mimic the clinical disease and aid the evaluation of treatment strategies. Although some success has been achieved in transgenic approaches for development of rodent models of HCV, transgenic expression of the complete HCV polyprotein or an entire set of the viral non-structural (NS) proteins continues to be a serious challenge. Using northern blot and 5' rapid amplification of cDNA ends (RACE), we unraveled two possible mechanisms that can impede HCV NS transgene expression in the mouse liver. Several truncated transcripts are produced from alternate transcription start sites along the HCV NS sequence within the murine environment, in vivo. Translation of these shorter transcripts is blocked either by the positioning of a contextual stop codon or through a shift in the reading frame. In addition, the complete NS transcript undergoes trans-splicing through 5' recombination with a non-transgene-derived, spliced leader sequence that appends a potential stop codon upstream of the translation start. These findings thus demonstrate that HCV NS-derived transgenes are subject to aberrant transcriptional initiation and post-transcriptional processing in the nucleus of a mouse host. Strategies to prevent such aberrant transcription start/RNA processing might be key to the development of a successful HCV transgenic mouse model.
Author	Zhang, Yueqing Desai, Mayura M Sun, Jiaren Chan, Lee-Nien Lillian Chan, Teh-sheng Tumurbataar, Batbayar
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Keywords	Transgenic mouse Hepatitis C virus Non-structural proteins Trans-splicing Aberrant transcription Splicing Transcription Rodentia Transgenic animal Protein Virus Vertebrata Mammalia Gene Mouse Flaviviridae Hepacivirus
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Snippet	Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease worldwide. Since several aspects of the infection remain unresolved, there is a...
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SubjectTerms	Animal Genetics and Genomics Animal models Animals Base Sequence Biological and medical sciences Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biotechnology Blotting, Northern Cell Line Cell Nucleus Cell Nucleus - genetics Cell Nucleus - metabolism Chronic infection Codon, Terminator Codon, Terminator - genetics Codon, Terminator - metabolism complementary DNA Female Frameshifting, Ribosomal Fundamental and applied biological sciences. Psychology gene expression Gene Expression Regulation, Viral Genetic Engineering Genetic technics genetics Hepacivirus Hepacivirus - genetics Hepacivirus - pathogenicity Hepatitis C virus Humans Language Life Sciences liver Liver - metabolism Liver - virology Liver diseases Male metabolism Methods. Procedures. Technologies Mice Mice, Inbred C57BL Mice, Transgenic Molecular Medicine Molecular Sequence Data Northern blotting Nuclei Original Paper pathogenicity Plant Genetics and Genomics Plasmids Plasmids - genetics Plasmids - metabolism polyproteins Post-transcription proteins rapid amplification of cDNA ends Reading Frames Recombination RNA RNA processing RNA Processing, Post-Transcriptional RNA, Messenger RNA, Messenger - genetics RNA, Messenger - metabolism Stop codon trans-splicing Transcription transcription (genetics) Transcription initiation Transcription Initiation Site Transcription, Genetic Transgenes Transgenic animals and transgenic plants Transgenic mice Transgenics Translation translation (genetics) Viral Nonstructural Proteins Viral Nonstructural Proteins - genetics Viral Nonstructural Proteins - metabolism virology
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Title	Aberrant transcription and post-transcriptional processing of hepatitis C virus non-structural genes in transgenic mice
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