Association between RABV G Proteins Transported from the Perinuclear Space to the Cell Surface Membrane and N-Glycosylation of the Sequon Asn(204).

In this study, G proteins of the rabies virus (RABV) Kyoto strain were detected in the cytoplasm but not distributed at the cell membrane of mouse neuroblastoma (MNA) cells. G proteins of CVS-26 were detected in both the cell membrane and perinuclear space of MNA cells. We found that N-glycosylation of street RABV G protein by the insertion of the sequon Asn(204) induced the transfer of RABV G proteins to the cell surface membrane. Fixed RABV budding from the plasma membrane has been found to depend not only on G protein but also on other structural proteins such as M protein. However, the differing N-glycosylation of G protein could be associated with the distinct budding and antigenic features of RABV in street and fixed viruses. Our study of the association of N-glycan of G protein at Asn(204) with the transport of RABV G protein to the cell surface membrane contributes to the understanding of the evolution of fixed virus from street virus, which in turn would help for determine the mechanism underlying RABV budding and enhanced host immune responses.

Gene expression analysis of host innate immune responses in the central nervous system following lethal CVS-11 infection in mice.

The central nervous system (CNS) tissue of mice infected with the CVS-11 strain of rabies virus (RABV) was subjected to gene expression analysis using microarray and canonical pathway analyses. Genes associated with innate immunity as well as inflammatory responses were significantly up-regulated, corroborating with the previous findings obtained using attenuated viruses that did not induce a fatal outcome in infected mice. Histopathological examination showed that neurons in the cerebellum had undergone apoptosis. Although the extent of Fas ligand up-regulation was not so prominent, perforin and granzyme genes were highly expressed in the CNS of mice infected with CVS-11. The presence of perforin and granzymes both in the Purkinje cells and CD3 T lymphocytes strongly suggested that apoptosis of the former cells was induced by the latter cells.