CONSERVATION OF THE ARCHITECTURE OF THE GOLGI-APPARATUS RELATED TO A DIFFERENTIAL ORGANIZATION OF MICROTUBULES IN POLYKARYOCYTES INDUCED BYSYN(-) MUTANTS OF HERPES-SIMPLEX VIRUS-1
Pl. Ward et al., CONSERVATION OF THE ARCHITECTURE OF THE GOLGI-APPARATUS RELATED TO A DIFFERENTIAL ORGANIZATION OF MICROTUBULES IN POLYKARYOCYTES INDUCED BYSYN(-) MUTANTS OF HERPES-SIMPLEX VIRUS-1, Virology, 241(2), 1998, pp. 189-199
Infection of Vero and HEp-2 but not of 143TK(-) cells with herpes simp
lex virus 1 results in fragmentation and dispersal of the Golgi appara
tus. Concurrently, in all three infected cell lines the microtubular n
etwork is disrupted, suggesting that the disruption of microtubules is
essential but not sufficient to induce the fragmentation of the Golgi
apparatus. We now report the following: (i) In polykaryocytes formed
in Vero cells infected with HSV-1 syn(-) mutant viruses, intact Golgi
stacks were readily detected by electron microscopy. These aggregated
in the center of large polykaryocytes. (ii) The distribution of viral
glycoprotein D, examined in both fixed and nonfixed cells, appeared to
match the distribution of the Golgi stacks, suggesting that the aggre
gated Golgi stacks funnel Viral glycoproteins and viral particles to a
limited region of the plasma membrane of the polykaryocytes rather th
an directing exocytic flow in a more dispersed fashion as seen in syn(
+) virus-infected cells exhibiting fragmented and dispersed Golgi. (ii
i) In most polykaryocytes, the microtubules formed parallel bundles ex
tending along the axis of recruitment of new cells. (iv) Fragmentation
of the microtubules at the periphery of the cell near the plasma memb
rane was observed in untreated or cycloheximide-treated cells 2 h afte
r infection with syn-virus HSV-1(MP) or syn(+) HSV-1(mP) but not in mo
ck-infected cells. These observations suggest that peripheral depolyme
rization is initialed at the time of infection and that a factor which
determines the syn(-) or syn(+) phenotype is whether the microtubular
network regenerates concomitant with cell fusion or reorganizes to fo
rm a collapsed network surrounding nuclei of syn(+) infected cells. (C
) 1998 Academic Press.