Biochemical Analysis of the Major Vaccinia Virus Envelope Antigen

Schmutz, Caroline; Rindisbacher, Lorenz; Galmiche, M.; Wittek, Riccardo

doi:10.1006/viro.1995.1542

Cited by 35 publications

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“…EEV has been shown to be important in long-distance spread of infectious virus in vitro and in vivo, and is also relevant in terms of pathogenicity (Payne, 1980). P37 is the major protein in the external envelope of EEV (Hiller & Weber, 1985 ;Payne, 1978), and is tightly bound to the inner surface of the outer membrane (Roos et al, 1996 ;Schmutz et al, 1995). Within infected cells, P37 is localized in the Golgi region, associated with vesicles which form doublewalled envelopes around IMV (Hiller & Weber, 1985).…”

Section: Introductionmentioning

confidence: 99%

“…It is an acylated protein (Child & Hruby, 1992) and it has been recently shown that cysteine residues at positions 185 and 186 are both modified by palmitate (Grosenbach et al, 1997). The palmitate moiety is responsible for the hydrophobic nature of the protein (Grosenbach et al, 1997 ;Schmutz et al, 1995), mediates its membrane interaction and therefore directs its correct intracellular location. Palmitylation is crucial for function, since non-palmitylated versions of the protein, i.e.…”

Section: Introductionmentioning

confidence: 99%

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Complementation of P37 (F13L gene) knock-out in vaccinia virus by a cell line expressing the gene constitutively.

Borrego

Lorenzo

Blasco

1999

Journal of General Virology

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Complementation of P37 (F13L gene) knock-out in vaccinia virus by a cell line expressing the gene constitutively.

Borrego

Lorenzo

Blasco

1999

Journal of General Virology

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“…The B5R product is a 42-kDa type I integral membrane component of the EEV (8,23). The F13L ORF encodes a nonglycosylated, palmitylated protein that is the most abundant component of the EEV membrane (15,16,18,19,40). The F13L protein contains a variant of the HKD (His-Lys-Asp) motif that is conserved in a superfamily of phospholipases and phospholipid synthases (25,33,45) and has been reported previously to exhibit broad-specificity lipase activities in vitro (1).…”

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confidence: 99%

Similarities in the Induction of Post-Golgi Vesicles by the Vaccinia Virus F13L Protein and Phospholipase D

Husain

Moss

2002

J Virol

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Intracellular mature vaccinia virions are wrapped by cisternae, derived from virus-modified trans-Golgi or endosomal membranes, and then transported via microtubules to the cell periphery. Two viral proteins, encoded by the F13L and B5R open reading frames, are essential for the membrane-wrapping step. Previous transfection studies indicated that F13L induces the formation of post-Golgi vesicles that incorporate the B5R protein and that this activity depends on an intact F13L phospholipase motif. Here we show that the F13L protein has a general effect on the trafficking of integral membrane proteins from the Golgi apparatus, as both the vaccinia virus A36R protein and the vesicular stomatitis virus G protein also colocalized with the F13L protein in vesicles. In addition, increased expression of cellular phospholipase D, which has a similar phospholipase motif as, but little amino acid sequence identity with, F13L, induced post-Golgi vesicles that contained B5R and A36R proteins. Butanol-1, which prevents the formation of phosphatidic acid by phospholipase D and specifically inhibits phospholipase D-mediated vesicle formation, also inhibited F13L-induced vesicle formation, whereas secondary and tertiary alcohols had no effect. Moreover, inhibition of phospholipase activity by butanol-1 also reduced plaque size and decreased the formation of extracellular vaccinia virus without affecting the yield of intracellular mature virus. Phospholipase D, however, could not complement a vaccinia virus F13L deletion mutant, indicating that F13L has additional virus-specific properties. Taken together, these data support an important role for F13L in inducing the formation of vesicle precursors of the vaccinia virus membrane via phospholipase activity or activation.Poxviruses are large, enveloped DNA viruses that replicate entirely within the cytoplasm of infected cells (30). The assembly of vaccinia virus, the most intensively studied member of the poxvirus family, can be divided into two phases. The first culminates in the formation of infectious intracellular mature virions (IMV) (13,14,21,31,43). The second involves the wrapping of IMV with cisternae derived from virus-modified trans-Golgi or endosomal membranes to form intracellular enveloped virions (IEV) (18,39,47) that are transported along microtubules to the periphery where the outer IEV membrane and the plasma membrane fuse (12,20,35,49,50). Most extracellular virus, called cell-associated enveloped virions (CEV), adhere to the outside of the plasma membrane and mediate direct cell-to-cell spread (4), which is facilitated by motile actin tails (7,36,38,44,52). The released virions, called extracellular enveloped virions (EEV), provide an additional mechanism for long-range spreading (32). The ratio of CEV to EEV varies with different vaccinia virus strains.Of the seven known proteins associated with IEV-or EEVspecific membranes, the ones encoded by the F13L and B5R open reading frames (ORFs) are required for the wrapping of IMV to form IEV (3, 9, 51). The B5R produ...

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“…Proteins encoded by seven viral genes have been identified as specific components of IEV, CEV, or EEV membranes. Five of these, A33R, A34R, A36R, A56R, and B5R, are glycoproteins, whereas F12L and F13L are unglycosylated (11,13,28,40,42,48,54,64,72). Recent studies indicated that the A36R protein is present only in the outer IEV membrane, which is not retained on extracellular virions (64).…”

mentioning

confidence: 99%

“…The resistance of EEV-associated F13L protein to protease digestion suggested that it was present on the inner surface of the EEV envelope (54). In infected cells, the F13L protein was localized on trans-Golgi and IEV membranes (25,53).…”

mentioning

confidence: 99%

Vaccinia Virus F13L Protein with a Conserved Phospholipase Catalytic Motif Induces Colocalization of the B5R Envelope Glycoprotein in Post-Golgi Vesicles

Husain

Moss

2001

J Virol

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The wrapping of intracellular mature vaccinia virions by modified trans-Golgi or endosomal cisternae to form intracellular enveloped virions is dependent on at least two viral proteins encoded by the B5R and F13L open reading frames. B5R is a type I integral membrane glycoprotein, whereas F13L is an unglycosylated, palmitylated protein with a motif that is conserved in a superfamily of phospholipid-metabolizing enzymes. Microscopic visualization of the F13L protein was achieved by fusing it to the enhanced green fluorescent protein (GFP). F13L-GFP was functional when expressed by a recombinant vaccinia virus in which it replaced the wild-type F13L gene or by transfection of uninfected cells with a plasmid vector followed by infection with an F13L deletion mutant. In uninfected or infected cells, F13L-GFP was associated with Golgi cisternae and post-Golgi vesicles containing the LAMP 2 late endosomal-lysosomal marker. Association of F13L-GFP with vesicles was dependent on an intact phospholipase catalytic motif and sites of palmitylation. The B5R protein was also associated with LAMP2-containing vesicles when F13L-GFP was coexpressed, but was largely restricted to Golgi cisternae in the absence of F13L-GFP or when the F13L moiety was mutated. We suggest that the F13L protein, like its human phospholipase D homolog, regulates vesicle formation and that this process is involved in intracellular enveloped virion membrane formation.

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Biochemical Analysis of the Major Vaccinia Virus Envelope Antigen

Cited by 35 publications

References 0 publications

Complementation of P37 (F13L gene) knock-out in vaccinia virus by a cell line expressing the gene constitutively.

Complementation of P37 (F13L gene) knock-out in vaccinia virus by a cell line expressing the gene constitutively.

Similarities in the Induction of Post-Golgi Vesicles by the Vaccinia Virus F13L Protein and Phospholipase D

Vaccinia Virus F13L Protein with a Conserved Phospholipase Catalytic Motif Induces Colocalization of the B5R Envelope Glycoprotein in Post-Golgi Vesicles

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