Project Summary

     Hepatitis B virus (HBV) chronic infection frequently leads to liver disease such as cirrhosis and hepatocellular carcinoma (HCC). As a result of severe liver pathogenesis, more than 500,000 infected patients die yearly. HBV is a small, enveloped DNA virus belonging to the Hepadnaviridae family. The viral genome coding for capsid (C), polymerase (P), viral X protein (HBx) and three envelope proteins (S, M and L) is only 3.1 kbp wide. To accomplish distinct steps in a typical virus life cycle - entry, replication, assembly, and egress - viruses are able to manipulate cellular mechanisms for their own benefit. The autophagy, a lysosomal-dependent degradation pathway, has very important roles in HBV life cycle. HBV induces non-degradative autophagy, which in turn promotes viral replication. However, several research groups have claimed that autophagy exerts a suppressive effect in HBV-related HCC tumorigenesis, indicating the complex relationship between the pathogen and this cellular pathway. The mechanism by which HBV is assembled and released from infected hepatocytes is poorly understood. The current project is focused around the hypothesis that secretory autophagy, a newly described unconventional secretion pathway, regulates HBV exit from infected cells. To investigate this possibility, we will first modulate the expression level of several key proteins involved in secretory autophagy in (i) HBV-replicating hepatoma cells, (ii) HEK293T cells overexpressing S, M or L viral glycoproteins, or in (iii) differentiated HepaRG cells supporting HBV infection. The influence of autophagy-based unconventional secretion will be further determined by monitoring different aspects of the HBV life cycle. Provided our hypothesis is confirmed, we will not only shed light on a very important and mostly obscure step of the HBV life cycle – the viral egress – but also, the secretion regulatory proteins could be used as possible targets against viral spread in vivo.

Contact

contact@hbvegress.ro

Tel: (+4).021.223.90.69

 

FAX: (+4).021.223.90.68

Splaiul Independentei 296

060031, Sector 6, Bucuresti

Molecular mechanisms of hepatitis B virus egress

 

Grant No. 98 from 02/05/2018

Aplication Cod: PN-III-P1-1.1-TE-2016-1894

Duration: 24 months

(02/05/2018-30/04/2020)

Funding: 450.000,00 lei (UEFISCDI)

 Education & Careers

Institute of Biochemistry Viral Glycoproteins Department

  1. en
  2. ro

    The current grant is focused around the hypothesis that secretory autophagy and the associated molecular machinery regulate HBV exit from infected cells. To investigate this possibility, we will first modulate the expression level of several key proteins involved in secretory autophagy in (i) HBV-replicating hepatoma cells, (ii) HEK293T cells overexpressing S, M or L viral glycoproteins, or in (iii) differentiated HepaRG cells supporting HBV infection.

Aim of the Project

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