Abstract
We have studied the transport of the Uukuniemi virus membrane glycoproteins in baby hamster kidney and chick embryo cells by using a temperature-sensitive mutant (ts12). Uukuniemi virus assembles in the Golgi complex, where both glycoproteins G1 and G2 and nucleocapsid protein N accumulate (E. Kuismanen, B. Bång, M. Hurme, and R. F. Pettersson, J. Virol. 51:137-146, 1984). At the restrictive temperature (39 degrees C), the glycoproteins of ts12 were transported to the Golgi complex as in wild-type, virus-infected cells, whereas the nucleocapsid protein failed to accumulate there. Pulse-chase labeling followed by immunoprecipitation and treatment with endo-beta-N-acetylglucosaminidase H showed that G1 synthesized at 39 degrees C in ts12-infected cells had an altered mobility in sodium dodecyl sulfate-polyacrylamide gel electrophoresis, suggesting a lack of terminal glycosylation. The typical Uukuniemi virus-induced vacuolization and expansion of the Golgi complex could be seen also in ts12-infected cells at 39 degrees C, although no virus particles were formed. This suggests that the morphological changes were induced by the Uukuniemi virus glycoproteins. In wild-type virus- or ts12-infected cells, G1 and G2 could not be chased out from the Golgi complex even after 6 h of treatment with cycloheximide. The glycoproteins were thus retained in the Golgi even under conditions when no virus maturation took place and when nucleocapsids did not accumulate in the Golgi region. Accordingly, the glycoproteins of Uukuniemi virus were found to have properties resembling those of Golgi-specific proteins. This virus model system may be useful in studying the synthesis and transport of membrane proteins that are transported to and retained in the Golgi.