Hepatitis C virus core particle detected by immunoelectron microscopy and optical rotation technique

Abstract Hepatitis C Virus (HCV) are 55–65 nm spherical particles, but the internal structure of the virion remains to be clarified. To clarify the morphology of HCV core particles, we performed an immune electron microscopy (IEM) using plasma samples from two blood donors with high HCV RNA titers and a detergent-treated anti -HCV core antibody-free plasma sample with high HCV RNA titer (1.5×10 8 copies/ml). Spherical particles, with 33–40 nm in diameter (an average diameter of 37 nm) were found in 1.22–1.25 g/ml fractions after sucrose density gradient centrifugation by conventional electron microscopy (EM). IEM using rabbit polyclonal antibody (RR8) specific to the putative HCV core protein and goat anti -rabbit IgG colloidal gold particles revealed that these spherical particles specifically reacted with RR8. This finding indicates that the spherical particles are naked HCV core particles. Some of the HCV core particles had an icosahedron-like structure. Optical rotation technique showed that the HCV core particle exhibits six-fold symmetry and that the length of regular hexagon side is approximately 20 nm. These findings showed that HCV core particles are spherical particles of 33–40 nm in diameter and that HCV core particles may possess an icosahedron-like structure and a buoyant density of 1.22–1.25 g/ml.