The present invention relates to a method of purifying whole HCV particles, the method comprising the steps of a) providing a cell culture supernatant comprising virus particles, b) purification and/or concentration of the cell culture supernatant, c) purification and/or concentration of the product of above step b) using steric exclusion chromatography (SXC) at alkaline pH in the range of 8-10, d) purification and/or concentration of the product of above step c) using sulphated cellulose membrane absorbers (SCMA), e) obtaining purified whole virus particles.

Disclosed herein are methods of producing glyco-modified viral antigens that provide a shift of the glycosylation profile of recombinant produced viral antigens (e.g. glycoproteins) towards the naturally occurring viral antigens (e.g. glycoproteins). Disclosed are methods of producing a modified viral antigen comprising expressing a viral antigen in a recombinant mammalian cell line having one or more of the endogenous genes Mgat2, Mgat4A, Mgat4B, Mgat5, St3Gal3, St3Gal4, B4galt1, B4galt2, B4galt3, B4galt4, B4galt5, B3gnt2, St3Gal6, SPPL3, and/or FUT8 inactivated and/or downregulated; and optionally a gene ST6Gall inserted. Disclosed are glyco-modified viral antigens produced by the method of using a recombinant mammalian cell line. Disclosed are methods of treating a subject in need thereof comprising administering a composition comprising a therapeutically effective amount of one or more of the glyco-modified viral antigens. Disclosed are methods of screening for an antibody specific to one or more of the disclosed glyco-modified viral antigens.

The present invention relates to hepatitis C virus (HCV) culture systems of genotypes 1a, 3a, 4a, 5a, and 6a that directly contribute to HCV drug and vaccine development, to HCV basic research and better-individualized treatment of HCV infected patients.

The present disclosure provides methods and compositions relating to in vitro cultures of human hepatocyte cell lines which exhibit a primary human hepatocyte phenotype. Such cell lines are susceptible to infection by a hepatotrophic virus, such as HCV or HBV, and support both viral replication and high levels of viral particle production. Such in vitro cultures find use in production and study of hepatotrophic virus, as well as methods of screening (e.g., for antiviral drugs, assessing drug metabolism), and study of primary human hepatocytes.

Disclosed herein are vaccine constructs for producing a virus-like particle (VLP) capable of raising an immune response to an immunogen, and uses thereof, wherein the constructs comprise nucleic acid sequences encoding an immunogen and a polyprotein, wherein the polyprotein comprises two or more viral structural proteins, wherein at least two of the two or more viral structural proteins are separated by a signal peptidase sequence such that, when the polyprotein is expressed in a host cell, the signal peptidase sequence undergoes host cell peptidase-dependent cleavage to liberate the two or more viral structural proteins, thereby allowing the liberated structural proteins to self-assemble into a VLP carrying the immunogen.

The present invention relates to a method of purifying whole HCV particles, the method comprising the steps of a) providing a cell culture supernatant comprising virus particles, b) purification and/or concentration of the cell culture supernatant, c) purification and/or concentration of the product of above step b) using steric exclusion chromatography (SXC) at alkaline pH in the range of 8-10, d) purification and/or concentration of the product of the above step c) using sulphated cellulose membrane absorbers (SCMA), e) obtaining whole virus particles.

The present invention relates to the field of vaccination, in particular, of vaccination against hepatitis C virus (HCV). The present invention provides a composition comprising at least parts of the HCV core protein, and HCV E1 and HCV E2 protein of a specific HCV strain, as well as VSV-G protein. The proteins may be assembled in rVSV-HCV particles. This has been identified to induce particularly advantageous broadly neutralizing antibodies. The invention further provides nucleic acids encoding said HCV proteins and VSV proteins but not encoding VSV-G protein. Vaccines comprising the particles, compositions or nucleic acids are disclosed as useful, in particular, for prophylactic vaccination against HCV. Methods of producing the rVSV-HCV particles or compositions of the invention and the produced particles and compositions are also subject-matter of the invention.