Characterization of two differently glycosylated molecular species of yeast-derived hepatitis B vaccine carrying the pre-S2 region

Abstract

Modified hepatitis B virus surface antigen M protein particles (HBsAg M-P31c) produced in yeast is mainly composed of two differently glycosylated proteins, GP37 and GP34. GP37 has an N-linked sugar chain and O-linked sugar chains; and GP34 has an N-linked sugar chain bound to the peptide backbone P31. Although M-P31c vaccine elicits both anti-S and anti-pre-S2 antibodies, whether there are any differences between GP37 and GP34 in the ability to elicit these antibodies is still unknown. To clarify this issue, we prepared particles which were composed solely of GP37 or GP34 by affinity chromatography, using polymerized human serum albumin as a ligand and digestion with α-mannosidase. We also prepared particles composed solely of P31 by successive digestion with α-mannosidase and endo-β- N-acetylglycosaminidase H. The vaccines derived from these three kinds of particles elicited both anti-S and anti-pre-S2 antibodies in mice to the same extent as the original M-P31c vaccine. These results suggest that the N- and O-linked sugar chains of M-P31c component proteins produced in the host yeast cells have no effect on the ability to elicit anti-S and anti-pre-S2 antibodies and that there are no differences with respect to antibody response in mice between the two major components of M-P31c, GP37 and GP34.