Peter Block scite author profile

Hepatitis B virus (HBV) infects hepatocytes specifically and causes immune mediated liver damage. How HBV interacts with the innate immunity at the early phase of infection, either with the hepatocytes or other cells in the liver remains controversial. To address this question, we utilized various cell culture models and humanized Alb-uPA/SCID mice. All these models were unable to mount an interferon (IFN) response despite robust HBV replication. To elucidate the mechanisms involved in the lack of IFN response, we examined whether HBV actively inhibits innate immune functions of hepatocytes. By treating HBV infected cells with known inducers of IFN signaling pathway, we observed no alteration of either sensing or downstream IFN response by HBV. We showed that the DNA innate sensing pathways are poorly active in hepatocytes, consistent with the muted innate immune recognition of HBV. Upon exposure to high-level HBV, macrophages could be activated with increased inflammatory cytokine expressions. Conclusion: HBV behaves like a “stealth” virus and is not sensed by nor actively interferes with the intrinsic innate immunity of the infected hepatocytes. Macrophages are capable of sensing HBV but require exposure to high HBV titers, potentially explaining the long “window period” during acute infection and HBV’s propensity to chronic infection.

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Human stem cell-derived hepatocytes as a model for hepatitis B virus infection, spreading and virus-host interactions

Xia

Carpentier

Cheng

et al. 2017

Journal of Hepatology

121

143

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Background and Aims One major obstacle of hepatitis B virus (HBV) research is the lack of efficient cell culture system permissive for viral infection and replication. The aim of our study was to establish a robust HBV infection model by using hepatocyte-like cells (HLCs) derived from human pluripotent stem cells. Methods HLCs were differentiated from human embryonic stem cells and induced pluripotent stem cells. Maturation of hepatocyte functions was determined. After HBV infection, viral total DNA, cccDNA, total RNA, pgRNA, HBeAg, HBsAg were measured. Results More than 90% of the HLCs expressed strong signals of human hepatocyte markers like albumin as well as known host factors required for HBV infection, suggesting that these cells present key features of mature hepatocytes. Notably, HLCs expressed the viral receptor sodium-taurocholate cotransporting polypeptide more stably than primary human hepatocytes (PHHs). HLCs supported robust infection and some spreading of HBV. Finally, by using this model, we identified two host-targeting agents, Genistin and PA452, as novel antivirals. Conclusions Stem cells-derived HLCs fully support HBV infection. This novel HBV infection HLCs model offers a unique opportunity to advance our understanding of the molecular details of the HBV life cycle, to further characterize virus-host interactions and to define new targets for HBV curative treatment.

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Rapid and Long-Term Immunity Elicited by DNA-Encoded Antibody Prophylaxis and DNA Vaccination Against Chikungunya Virus

et al. 2016

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Peter Block

Hepatitis B virus evades innate immunity of hepatocytes but activates cytokine production by macrophages

Human stem cell-derived hepatocytes as a model for hepatitis B virus infection, spreading and virus-host interactions

Rapid and Long-Term Immunity Elicited by DNA-Encoded Antibody Prophylaxis and DNA Vaccination Against Chikungunya Virus

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