Abstract
As soon as HBV was identified, HBV localization at the cellular level became instrumental in studying HBV infection. Multiple methodologies for detection of viral antigens and nucleic acids at the cellular level, not only in patient derived liver biopsy samples, but also in many other experimental systems, have been developed over the years. Recently, the development of highly sensitive and specific in situ hybridization systems enabled detection of cellular mRNAs at the single copy level. Adaptation of such a system (ViewRNA ISH Tissue Assay; Affymetrix, Santa Clara, CA, USA) for the detection of viral RNAs allowed us to reliably identify hepatitis C virus RNA positive cells in the liver of HCV infected patients. Similarly, this protocol enabled detection of very rare HBV positive cells in liver biopsy tissue. Here, we now describe the specifics of the protocol for detection of HBV RNA using the ViewRNA ISH system. The protocol focuses on probe set design, sample preparation and data interpretation for accurate HBV RNA detection in liver tissue samples. The methodology is straightforward and will be very useful in the study of basic HBV virology as well as in clinical applications.
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References
Vergani D, Locasciulli A, Masera G et al (1982) Histological evidence of hepatitis-B-virus infection with negative serology in children with acute leukaemia who develop chronic liver disease. Lancet 1:361–364
Blum HE, Stowring L, Figus A et al (1983) Detection of hepatitis B virus DNA in hepatocytes, bile duct epithelium, and vascular elements by in situ hybridization. Proc Natl Acad Sci U S A 80:6685–6688
Shin YJ, Cho SW, Hahm KB et al (1998) Localization of hepatitis B virus DNA in hepatocellular carcinoma by polymerase chain reaction in situ hybridization. J Korean Med Sci 13:377–382
Urdea MS (1993) Synthesis and characterization of branched Dna (Bdna) for the direct and quantitative detection of Cmv, Hbv, Hcv, and Hiv. Clin Chem 39:725–726
Urdea MS (1994) Branched DNA signal amplification. Biotechnology (NY) 12:926–928
Flagella M, Bui S, Zheng Z et al (2006) A multiplex branched DNA assay for parallel quantitative gene expression profiling. Anal Biochem 352:50–60
Wieland S, Makowska Z, Campana B et al (2014) Simultaneous detection of hepatitis C virus and interferon stimulated gene expression in infected human liver. Hepatology 59:2121–2130
Wieland SF, Asabe S, Engle RE et al (2014) Limited hepatitis B virus replication space in the chronically hepatitis C virus-infected liver. J Virol 88:5184–5188
Carpenter AE, Jones TR, Lamprecht MR et al (2006) Cell profiler: image analysis software for identifying and quantifying cell phenotypes. Genome Biol 7:R100
Kamentsky L, Jones TR, Fraser A et al (2011) Improved structure, function and compatibility for cell profiler: modular high-throughput image analysis software. Bioinformatics 27:1179–1180
Acknowledgments
We thank Karl-Dimiter Bissig (Baylor College of Medicine, Houston, TX, USA) for providing human chimeric mouse liver samples and Markus Heim (University Hospital Basel) for providing patient liver biopsy samples and funding (Swiss National Science Foundation grant 310030B _147089/1).
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Calabrese, D., Wieland, S.F. (2017). Highly Sensitive Detection of HBV RNA in Liver Tissue by In Situ Hybridization. In: Guo, H., Cuconati, A. (eds) Hepatitis B Virus. Methods in Molecular Biology, vol 1540. Humana Press, New York, NY. https://doi.org/10.1007/978-1-4939-6700-1_10
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DOI: https://doi.org/10.1007/978-1-4939-6700-1_10
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Publisher Name: Humana Press, New York, NY
Print ISBN: 978-1-4939-6698-1
Online ISBN: 978-1-4939-6700-1
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