Bioinformatic analysis of the hepadnavirus e‐antigen and its precursor identifies remarkable sequence conservation in all orthohepadnaviruses

Revill, Peter; Yuen, Lilly; Walsh, Renae; Perrault, M; Locarnini, Stephen; Kramvis, Anna

doi:10.1002/jmv.21645

Cited by 35 publications

(46 citation statements)

References 64 publications

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“…The HBeAg is translated initially as the PC protein P25, and then undergoes cleavage of the N-terminal signal sequence in the ER/Golgi complex, producing a 22 kDa protein (P22), which can either undergo further processing to form the secreted 17 kDa HBeAg (P17), or traffic to the cytosol where it remains localised 11. Except for a 10-amino-acid N-terminal extension, which is highly conserved in all orthohepadnaviruses and contains a putative toll-interleukin-1 receptor (TIR) domain,12 HBeAg shares significant homology with the core protein (P21), which is translated using the core AUG codon of the same ORF 13…”

Section: Hbv Virologymentioning

confidence: 99%

New insight in the pathobiology of hepatitis B virus infection

Dandri

Locarnini

2012

Gut

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206

163

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Chronic hepatitis B virus (HBV) infection remains a major health burden and the main risk factor for the development of hepatocellular carcinoma worldwide. However, HBV is not directly cytopathic and liver injury appears to be mostly caused by repeated attempts of the host's immune responses to control the infection. Recent studies have shown that the unique replication strategy adopted by HBV enables it to survive within the infected hepatocyte while complex virus-host interplays ensure the virus is able to fulfil its replication requirements yet is still able to evade important host antiviral innate immune responses. Clearer understanding of the host and viral mechanisms affecting HBV replication and persistence is necessary to design more effective therapeutic strategies aimed at improving the management of patients with chronic HBV infection to eventually achieve viral eradication. This article focuses on summarising the current knowledge of factors influencing the course of HBV infection, giving emphasis on the use of novel assays and quantitative serological and intrahepatic biomarkers as tools for predicting treatment response and disease progression.

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Section: Hbv Virologymentioning

confidence: 99%

New insight in the pathobiology of hepatitis B virus infection

Dandri

Locarnini

2012

Gut

Self Cite

206

163

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“…Although the majority of this signal-cleaved product is secreted, between 20% and 30% [14] of the mature protein is retained in the cytoplasm, although no specific role has been ascribed to the cytosol-localized form of HBeAg [15]. Interestingly, the HBeAg precursory genetic codes share remarkable sequence conservation in all mammalian-infecting hepadnaviruses, irrespective of host, genotype, or geographic origin [29]. Alternatively, hepatitis B core antigen (HBcAg) is a truncated protein highly homologous to HBeAg, sharing an open reading frame [6].…”

Section: Introductionmentioning

confidence: 99%

The Hepatitis B e antigen (HBeAg) targets and suppresses activation of the Toll-like receptor signaling pathway

Lang¹,

Lo²,

Skinner³

et al. 2011

Journal of Hepatology

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144

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“…7 While the role of e-antigen in regulating the immune system is only partially understood, 8,9 its high evolutionary conservation in the Hepadnaviridae suggests the importance of its function. 10 The core-antigen protein is comprised of a 149-residue assembly domain and a 34-residue C-terminal arginine-rich domain [ Fig. 1(A)].…”

Section: Introductionmentioning

confidence: 99%

Assessment of differences in the conformational flexibility of hepatitis B virus core‐antigen and e‐antigen by hydrogen deuterium exchange‐mass spectrometry

et al. 2014

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Hepatitis B virus core-antigen (capsid protein) and e-antigen (an immune regulator) have almost complete sequence identity, yet the dimeric proteins (termed Cp149 d and Cp(210)149 d , respectively) adopt quite distinct quaternary structures. Here we use hydrogen deuterium exchange-mass spectrometry (HDX-MS) to study their structural properties. We detect many regions that differ substantially in their HDX dynamics. Significantly, whilst all regions in Cp(210)149 d exchange by EX2-type kinetics, a number of regions in Cp149 d were shown to exhibit a mixture of EX2-and EX1-type kinetics, hinting at conformational heterogeneity in these regions.Comparison of the HDX of the free Cp149 d with that in assembled capsids (Cp149 c ) indicated increased resistance to exchange at the C-terminus where the inter-dimer contacts occur. Furthermore, evidence of mixed exchange kinetics were not observed in Cp149 c , implying a reduction in flexibility upon capsid formation. Cp(210)149 d undergoes a drastic structural change when the intermolecular disulphide bridge is reduced, adopting a Cp149 d -like structure, as evidenced by the detected HDX dynamics being more consistent with Cp149 d in many, albeit not all, regions. These results demonstrate the highly dynamic nature of these similar proteins. To probe the effect of these structural differences on the resulting antigenicity, we investigated binding of the antibody fragment (Fab E1) that is known to bind a conformational epitope on the four-helix bundle. Whilst Fab E1 binds to Cp149 c and Cp149 d , it does not bind non-reduced and reduced Cp (210)149 Published by Wiley-Blackwell. V C 2014 The Protein Society despite unhindered access to the epitope. These results imply a remarkable sensitivity of this epitope to its structural context.

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Bioinformatic analysis of the hepadnavirus e‐antigen and its precursor identifies remarkable sequence conservation in all orthohepadnaviruses

Cited by 35 publications

References 64 publications

New insight in the pathobiology of hepatitis B virus infection

New insight in the pathobiology of hepatitis B virus infection

The Hepatitis B e antigen (HBeAg) targets and suppresses activation of the Toll-like receptor signaling pathway

Assessment of differences in the conformational flexibility of hepatitis B virus core‐antigen and e‐antigen by hydrogen deuterium exchange‐mass spectrometry

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