In vitro binding properties of the hepatitis delta antigens to the hepatitis B virus envelope proteins: potential significance for the formation of delta particles

1994 ◽  
Vol 31 (1) ◽  
pp. 27-37 ◽  
Author(s):  
Wieke de Bruin ◽  
William Leenders ◽  
Ton Kos ◽  
Sing Hiem Yap
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Potential Significance ◽  
Virus Envelope ◽  
Binding Properties ◽  
Hepatitis Delta ◽  
In Vitro Binding ◽  
Vitro Binding ◽  
B Virus

scholarly journals Role of N Glycosylation of Hepatitis B Virus Envelope Proteins in Morphogenesis and Infectivity of Hepatitis Delta Virus

2003 ◽  
Vol 77 (9) ◽  
pp. 5519-5523 ◽  
Author(s):  
Camille Sureau ◽  
Chantal Fournier-Wirth ◽  
Patrick Maurel
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Hepatitis Delta Virus ◽  
Envelope Proteins ◽  
Virus Envelope ◽  
Hepatitis Delta ◽  
B Virus ◽  
L Proteins ◽  
Delta Virus

ABSTRACT Hepatitis delta virus (HDV) particles are coated with the large (L), middle (M), and small (S) hepatitis B virus envelope proteins. In the present study, we constructed glycosylation-defective envelope protein mutants and evaluated their capacity to assist in the maturation of infectious HDV in vitro. We observed that the removal of N-linked carbohydrates on the S, M, and L proteins was tolerated for the assembly of subviral hepatitis B virus (HBV) particles but was partially inhibitory for the formation of HDV virions. However, when assayed on primary cultures of human hepatocytes, virions coated with S, M, and L proteins lacking N-linked glycans were infectious. Furthermore, in the absence of M, HDV particles coated with nonglycosylated S and L proteins retained infectivity. These results indicate that carbohydrates on the HBV envelope proteins are not essential for the in vitro infectivity of HDV.

Farnesoid X receptor alpha ligands inhibit hepatitis delta virus replication in vitro independently of their effect on hepatitis B virus

2020 ◽  
Vol 73 ◽  
pp. S834-S835
Author(s):  
Benoît Lacombe ◽  
Julie Lucifora ◽  
Camille Ménard ◽  
Michelet Maud ◽  
Adrien Foca ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Virus Replication ◽  
Hepatitis Delta Virus ◽  
Farnesoid X Receptor ◽  
Hepatitis Delta ◽  
Receptor Alpha ◽  
B Virus ◽  
Delta Virus

scholarly journals Analysis of the Cytosolic Domains of the Hepatitis B Virus Envelope Proteins for Their Function in Viral Particle Assembly and Infectivity

2006 ◽  
Vol 80 (24) ◽  
pp. 11935-11945 ◽  
Author(s):  
Matthieu Blanchet ◽  
Camille Sureau
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Self Assembly ◽  
Inner Core ◽  
Envelope Proteins ◽  
Endoplasmic Reticulum Membrane ◽  
Virus Envelope ◽  
Particle Assembly ◽  
B Virus

ABSTRACT The hepatitis B virus (HBV) envelope proteins have the ability to assemble three types of viral particles, (i) the empty subviral particles (SVPs), (ii) the mature HBV virions, and (iii) the hepatitis delta virus (HDV) particles, in cells that are coinfected with HBV and HDV. To gain insight into the function of the HBV envelope proteins in morphogenesis of HBV or HDV virions, we have investigated subdomains of the envelope proteins that have been shown or predicted to lie at the cytosolic face of the endoplasmic reticulum membrane during synthesis, a position prone to interaction with the inner core structure. These domains, referred to here as cytosolic loops I and II (CYL-I and -II, respectively), were subjected to mutagenesis. The mutations were introduced in the three HBV envelope proteins, designated small, middle, and large (S-HBsAg, M-HBsAg, and L-HBsAg, respectively). The mutants were expressed in HuH-7 cells to evaluate their capacity for self-assembly and formation of HBV or HDV virions when HBV nucleocapsid or HDV ribonucleoprotein, respectively, was provided. We found that SVP-competent CYL-I mutations between positions 23 and 78 of the S domain were permissive to HBV or HDV virion assembly. One mutation (P29A) was permissive for synthesis of the S- and M-HBsAg but adversely affected the synthesis or stability of L-HBsAg, thereby preventing the assembly of HBV virions. Furthermore, using an in vitro infection assay based on the HepaRG cells and the HDV model, we have shown that particles coated with envelope proteins bearing CYL-I mutations were fully infectious, hence indicating the absence of an infectivity determinant in this region. Finally, we demonstrated that the tryptophan residues at positions 196, 199, and 201 in CYL-II, which were shown to exert a matrix function for assembly of HDV particles (I. Komla-Soukha and C. Sureau, J. Virol. 80:4648-4655, 2006), were dispensable for both assembly and infectivity of HBV virions.

scholarly journals Hepatitis delta virus facilitates the selection of hepatitis B virus mutants in vivo and functionally impacts on their replicative capacity in vitro

2016 ◽  
Vol 22 (1) ◽  
pp. 98.e1-98.e6 ◽  
Author(s):  
E. Shirvani-Dastgerdi ◽  
M.R. Pourkarim ◽  
U. Herbers ◽  
S. Amini-Bavil-Olyaee ◽  
E. Yagmur ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Hepatitis Delta Virus ◽  
Replicative Capacity ◽  
Hepatitis Delta ◽  
B Virus ◽  
Selection Of ◽  
Delta Virus

Involvement of phosphatidylserine and non-phospholipid components of the hepatitis B virus envelope in human Annexin V binding and in HBV infection in vitro

1999 ◽  
Vol 31 (5) ◽  
pp. 783-790 ◽  
Author(s):  
Sandra De Meyer ◽  
Zuojiong Gong ◽  
Erik Depla ◽  
Geert Maertens ◽  
Sing Hiem Yap
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Annexin V ◽  
Hbv Infection ◽  
Virus Envelope ◽  
B Virus

scholarly journals Hepatitis Delta Virus Alters the Autophagy Process To Promote Its Genome Replication

2019 ◽  
Vol 94 (4) ◽  
Author(s):  
Marwa Khabir ◽  
Asma Zahra Aliche ◽  
Camille Sureau ◽  
Matthieu Blanchet ◽  
Patrick Labonté
Keyword(s):  
Life Cycle ◽  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Hepatitis Delta Virus ◽  
Autophagic Flux ◽  
Virus Envelope ◽  
Hepatitis Delta ◽  
B Virus ◽  
The Impact ◽  
Delta Virus

ABSTRACT A substantial number of viruses have been demonstrated to subvert autophagy to promote their own replication. Recent publications have reported the proviral effect of autophagy induction on hepatitis B virus (HBV) replication. Hepatitis delta virus (HDV) is a defective virus and an occasional obligate satellite of HBV. However, no previous work has studied the relationship between autophagy and HDV. In this article, we analyze the impact of HBV and HDV replication on autophagy as well as the involvement of the autophagy machinery in the HDV life cycle when produced alone and in combination with HBV. We prove that HBxAg and HBsAg can induce early steps of autophagy but ultimately block flux. It is worth noting that the two isoforms of the HDV protein, the small HDAg (S-HDAg) and large HDAg (L-HDAg) isoforms, can also efficiently promote autophagosome accumulation and disturb autophagic flux. Using CRISPR-Cas9 technology to generate specific knockouts, we demonstrate that the autophagy machinery, specifically the proteins implicated in the elongation step (ATG7, ATG5, and LC3), is important for the release of HBV without affecting the level of intracellular HBV genomes. Surprisingly, the knockout of ATG5 and ATG7 decreased the intracellular HDV RNA level in both Huh7 and HepG2.2.15 cells without an additional effect on HDV secretion. Therefore, we conclude that HBV and HDV have evolved to utilize the autophagy machinery so as to assist at different steps of their life cycle. IMPORTANCE Hepatitis delta virus is a defective RNA virus that requires hepatitis B virus envelope proteins (HBsAg) to fulfill its life cycle. Thus, HDV can only infect individuals at the same time as HBV (coinfection) or superinfect individuals who are already chronic carriers of HBV. The presence of HDV in the liver accelerates the progression of infection to fibrosis and to hepatic cancer. Since current treatments against HBV are ineffective against HDV, it is of paramount importance to study the interaction between HBV, HDV, and host factors. This will help unravel new targets whereby a therapy that is capable of simultaneously impeding both viruses could be developed. In this research paper, we evidence that the autophagy machinery promotes the replication of HBV and HDV at different steps of their life cycle. Notwithstanding their contribution to HBV release, autophagy proteins seem to assist HDV intracellular replication but not its secretion.

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