Author: Marzook, N. Bishara; Latham, Sharissa L.; Lynn, Helena; Mckenzie, Christopher; Chaponnier, Christine; Grau, Georges E.; Newsome, Timothy P.
Title: Divergent roles of β†and γâ€actin isoforms during spread of vaccinia virus Cord-id: i45wly4s Document date: 2017_3_17
ID: i45wly4s
Snippet: Actin is a major component of the cytoskeleton and is present as two isoforms in nonâ€muscle cells: β†and γâ€cytoplasmic actin. These isoforms are strikingly conserved, differing by only four Nâ€terminal amino acids. During spread from infected cells, vaccinia virus (VACV) particles induce localized actin nucleation that propel virus to surrounding cells and facilitate cellâ€toâ€cell spread of infection. Here we show that virusâ€tipped actin comets are composed of β†and γâ€actin
Document: Actin is a major component of the cytoskeleton and is present as two isoforms in nonâ€muscle cells: β†and γâ€cytoplasmic actin. These isoforms are strikingly conserved, differing by only four Nâ€terminal amino acids. During spread from infected cells, vaccinia virus (VACV) particles induce localized actin nucleation that propel virus to surrounding cells and facilitate cellâ€toâ€cell spread of infection. Here we show that virusâ€tipped actin comets are composed of β†and γâ€actin. We employed isoformâ€specific siRNA knockdown to examine the role of the two isoforms in VACVâ€induced actin comets. Despite the high level of similarity between the actin isoforms, and their colocalization, VACVâ€induced actin nucleation was dependent exclusively on βâ€actin. Knockdown of βâ€actin led to a reduction in the release of virus from infected cells, a phenotype dependent on virusâ€induced Arp2/3 complex activity. We suggest that local concentrations of actin isoforms may regulate the activity of cellular actin nucleator complexes.
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