Hepatitis C virus: The role of N-glycosylation sites of viral genotype 1b proteins for formation of viral particles in insect and mammalian cells.

Hepatitis C virus (HCV) is characterized by considerable genetic variability and, as a consequence, it has 6 genotypes and multitude of subtypes. HCV envelope glycoproteins are involved in the virion formation; the correct folding of these proteins plays the key role in virus infectivity. Glycosylation at certain sites of different genotypes HCV glycoproteins shows substantial differences in functions of the individual glycans (Goffard et al., 2005; Helle et al., 2010) [1], [2]. In this study, differential glycosylation sites of HCV genotype 1b envelope proteins in insect and mammalian cells was demonstrated. We showed that part of glycosylation sites was important for folding of the proteins involved in the formation of viral particles. Point mutations were introduced in the protein N-glycosylation sites of HCV (genotype 1b) and the mutant proteins were analyzed using baculovirus expression system in mammalian and insect cells. Our data showed that, in contrast to HCV 1a and 2a, the folding of HCV 1b envelope proteins E2 (sites N1, N2, N10) and E1 (sites N1, N5) was disrupted, however that did not prevent the formation of virus-like particles (VLP) with misfolded glycoproteins having densities typical for HCV particles containing RNA fragments. Experimental data are supported by mathematical modeling of the structure of E1 mutant variants.

[Baculovirus vectors for efficient gene delivery and expression in mammalian cells].

Baculovirus expression vectors are extensively used for the delivering foreign genes and expression of recombinant proteins in insect and mammalian cells. Modified baculoviruses containing mammalian promoter elements (BacMam viruses) for an efficient transient and stable transduction of diverse mammalian cells prove a high level of heterologous proteins' expression both in vitro and in vivo. Recombinant baculovirus vectors containing mammalian expression cassette with cytomegalovirus promoter, green or red fluorescent protein gene, polyadenylate signal SV40pA, and polylinker MCS were constructed for the delivery of genes encoding hepatitis C virus structural proteins into mammalian cells. In Hek293T and Huh7 cells formation of glycoprotein complexes and HCV-like particles was observed. A high efficiency of the baculovirus-mediated gene transfer and expression of the virus envelope proteins in mammalian cells was demonstrated with using fluorescence, flow cytometry and immunoblot techniques.

[Characterization of hepatitis C virus structural proteins and HCV-like particles produced in recombinant baculovirus infected insect cells].

Three proteins, namely: "core" protein C and glycoproteins E1 and E2, are main structural proteins forming a hepatitis C vius (HCV) virion. The virus structure and assembly, a role of the structural proteins in virion morphogenesis remain unknown because of the lack of an efficient culture system for HCV to be grown in vitro. Using recombinant baculoviruses expressing HCV structural protein genes in insect cells the specific structural proteins at the level of 25-35% relative to a common cell protein content, heterodimers of the glcoproteins, and HCV-like particles have been obtained. It has been demonstrated that recombinant proteins C, E1, and E2 go through the posttranslation modification, the glycoproteins form the non-covalent heterodimer, and HCV-like particles are located in endoplasmatic reticulum membrains of infected cells. An ability of the expressed proteins for forming E1E2 dimers and HCV-like particles was used for studying the role of E1 protein glcosylation upon expression and processing of the glycoproteins.

[Improved efficient gene transfer into insect and mammalian cells by baculovirus vectors].

The fragments of genomics DNA of the nuclear polyhedrosis virus (NPV) containing genes of late viral proteins p10, p35, p39, were cloned, the promoter regions of this genes were used to design baculovirus transfer vectors. A double-promoter and triple-promoter baculovirus transfer vectors were obtained. Recombinant baculovirus vectors containing mammalian expression cassette with cytomegalovirus (CMV) promoter, the gene for green or red fluorescent protein, SV40pA and polylinker MCS were constructed for the delivery of foreign genes into mammalian cells.