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Prototype Foamy Virus Envelope Glycoprotein Leader Peptide Processing Is Mediated by a Furin-Like Cellular Protease, but Cleavage Is Not Essential for Viral Infectivity

Duda, Anja ; Stange, Annett ; Lüftenegger, Daniel ; [et al.]

American Society for Microbiology ; 2004

In: Journal of Virology Vol. 78, No. 24 ( 2004-12-15), p. 13865-13870

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In: Journal of Virology, American Society for Microbiology, Vol. 78, No. 24 ( 2004-12-15), p. 13865-13870

Abstract: Analogous to cellular glycoproteins, viral envelope proteins contain N-terminal signal sequences responsible for targeting them to the secretory pathway. The prototype foamy virus (PFV) envelope (Env) shows a highly unusual biosynthesis. Its precursor protein has a type III membrane topology with both the N and C terminus located in the cytoplasm. Coexpression of FV glycoprotein and interaction of its leader peptide (LP) with the viral capsid is essential for viral particle budding and egress. Processing of PFV Env into the particle-associated LP, surface (SU), and transmembrane (TM) subunits occur posttranslationally during transport to the cell surface by yet-unidentified cellular proteases. Here we provide strong evidence that furin itself or a furin-like protease and not the signal peptidase complex is responsible for both processing events. N-terminal protein sequencing of the SU and TM subunits of purified PFV Env-immunoglobulin G immunoadhesin identified furin consensus sequences upstream of both cleavage sites. Mutagenesis analysis of two overlapping furin consensus sequences at the PFV LP/SU cleavage site in the wild-type protein confirmed the sequencing data and demonstrated utilization of only the first site. Fully processed SU was almost completely absent in viral particles of mutants having conserved arginine residues replaced by alanines in the first furin consensus sequence, but normal processing was observed upon mutation of the second motif. Although these mutants displayed a significant loss in infectivity as a result of reduced particle release, no correlation to processing inhibition was observed, since another mutant having normal LP/SU processing had a similar defect.

Type of Medium: Online Resource

ISSN: 0022-538X , 1098-5514

URL: Article

DOI: 10.1128/JVI.78.24.13865-13870.2004

Language: English

Publisher: American Society for Microbiology

Publication Date: 2004

detail.hit.zdb_id: 1495529-5

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Characterization of Prototype Foamy Virus Gag Late Assembly Domain Motifs and Their Role in Particle Egress and Infectivity

Stange, Annett ; Mannigel, Ingrid ; Peters, Katrin ; [et al.]

American Society for Microbiology ; 2005

In: Journal of Virology Vol. 79, No. 9 ( 2005-05), p. 5466-5476

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In: Journal of Virology, American Society for Microbiology, Vol. 79, No. 9 ( 2005-05), p. 5466-5476

Abstract: Foamy viruses (FV) are unusual among retroviruses since they require both Gag and Env structural proteins for particle egress. Recently significant progress has been made towards the mechanistic understanding of the viral release process, in particular that of retroviruses, and the viral domains and cellular pathways involved. However little is currently known about domains of FV structural proteins and cellular proteins engaged in this process. By mutational analysis of sequence motifs in prototype FV (PFV) Gag, bearing homology to known late assembly (L) domains, a PSAP motif with L domain function that was functionally interchangeable by heterologous L domains was identified. In contrast the inactivation of a PPPI motif had no significant influence on PFV particle release, although mutant viral particles displayed reduced infectivity. Similarly mutation of an evolutionary conserved YXXL motif revealed no classical L-domain function but resulted in release of noninfectious viruslike particles. Biochemical and electron microscopy analysis demonstrated that these mutant particles incorporated all viral structural proteins but contained aberrantly capsid structures, suggesting a role in capsid assembly for this PFV Gag sequence motif. In line with the mutational analysis, overexpression of dominant negative (DN) mutants and wild-type TSG101 but not the DN mutant of AIP-1/ALIX reduced PFV particle release and infectivity. Furthermore, DN mutants of Vps4A, Vps4B, and CHMP3 inhibited PFV egress and infectivity. Taken together these results demonstrate that PFV, like other viruses, requires components of the vacuolar protein sorting (VPS) machinery for egress and enters the VPS pathway through interaction with TSG101.

Type of Medium: Online Resource

ISSN: 0022-538X , 1098-5514

URL: Article

DOI: 10.1128/JVI.79.9.5466-5476.2005

Language: English

Publisher: American Society for Microbiology

Publication Date: 2005

detail.hit.zdb_id: 1495529-5

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Ubiquitination of the Prototype Foamy Virus Envelope Glycoprotein Leader Peptide Regulates Subviral Particle Release

Stanke, Nicole ; Stange, Annett ; Lüftenegger, Daniel ; [et al.]

American Society for Microbiology ; 2005

In: Journal of Virology Vol. 79, No. 24 ( 2005-12-15), p. 15074-15083

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In: Journal of Virology, American Society for Microbiology, Vol. 79, No. 24 ( 2005-12-15), p. 15074-15083

Abstract: Foamy virus (FV) particle egress is unique among retroviruses because of its essential requirement for Gag and Env coexpression for budding and particle release. The FV glycoprotein undergoes a highly unusual biosynthesis resulting in the generation of three particle-associated, mature subunits, leader peptide (LP), surface (SU), and transmembrane (TM), derived from a precursor protein by posttranslational proteolysis mediated by furin or furinlike proteases. Previously at least three LP products of different molecular weights were detected in purified FV particles. Here we demonstrate that the higher-molecular-weight forms gp28 LP and gp38 LP are ubiquitinated variants of the major gp18 LP cleavage product, which has a type II membrane topology. Furthermore, we show that all five lysine residues located within the N-terminal 60-amino-acid cytoplasmic domain of gp18 LP can potentially be ubiquitinated, however, there seems to be a preference for using the first three. Inactivation of ubiquitination sites individually resulted in no obvious phenotype. However, simultaneous inactivation of the first three or all five ubiquitination sites in gp18 LP led to a massive increase in subviral particles released by these mutant glycoproteins that were readily detectable by electron microscopy analysis upon expression of the ubiquitination-deficient glycoprotein by itself or in a proviral context. Surprisingly, only the quintuple ubiquitination mutant showed a two- to threefold increase in single-cycle infectivity assays, whereas all other mutants displayed infectivities similar to that of the wild type. Taken together, these data suggest that the balance between viral and subviral particle release of FVs is regulated by ubiquitination of the glycoprotein LP.

Type of Medium: Online Resource

ISSN: 0022-538X , 1098-5514

URL: Article

DOI: 10.1128/JVI.79.24.15074-15083.2005

Language: English

Publisher: American Society for Microbiology

Publication Date: 2005

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Analysis of Prototype Foamy Virus particle-host cell interaction with autofluorescent retroviral particles

Stirnnagel, Kristin ; Lüftenegger, Daniel ; Stange, Annett ; [et al.]

Springer Science and Business Media LLC ; 2010

In: Retrovirology Vol. 7, No. 1 ( 2010-12)

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In: Retrovirology, Springer Science and Business Media LLC, Vol. 7, No. 1 ( 2010-12)

Abstract: The foamy virus (FV) replication cycle displays several unique features, which set them apart from orthoretroviruses. First, like other B/D type orthoretroviruses, FV capsids preassemble at the centrosome, but more similar to hepadnaviruses, FV budding is strictly dependent on cognate viral glycoprotein coexpression. Second, the unusually broad host range of FV is thought to be due to use of a very common entry receptor present on host cell plasma membranes, because all cell lines tested in vitro so far are permissive. Results In order to take advantage of modern fluorescent microscopy techniques to study FV replication, we have created FV Gag proteins bearing a variety of protein tags and evaluated these for their ability to support various steps of FV replication. Addition of even small N-terminal HA-tags to FV Gag severely impaired FV particle release. For example, release was completely abrogated by an N-terminal autofluorescent protein (AFP) fusion, despite apparently normal intracellular capsid assembly. In contrast, C-terminal Gag-tags had only minor effects on particle assembly, egress and particle morphogenesis. The infectivity of C-terminal capsid-tagged FV vector particles was reduced up to 100-fold in comparison to wild type; however, infectivity was rescued by coexpression of wild type Gag and assembly of mixed particles. Specific dose-dependent binding of fluorescent FV particles to target cells was demonstrated in an Env-dependent manner, but not binding to target cell-extracted- or synthetic- lipids. Screening of target cells of various origins resulted in the identification of two cell lines, a human erythroid precursor- and a zebrafish- cell line, resistant to FV Env-mediated FV- and HIV-vector transduction. Conclusions We have established functional, autofluorescent foamy viral particles as a valuable new tool to study FV - host cell interactions using modern fluorescent imaging techniques. Furthermore, we succeeded for the first time in identifying two cell lines resistant to Prototype Foamy Virus Env-mediated gene transfer. Interestingly, both cell lines still displayed FV Env-dependent attachment of fluorescent retroviral particles, implying a post-binding block potentially due to lack of putative FV entry cofactors. These cell lines might ultimately lead to the identification of the currently unknown ubiquitous cellular entry receptor(s) of FVs.

Type of Medium: Online Resource

ISSN: 1742-4690

URL: Article

DOI: 10.1186/1742-4690-7-45

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2010

detail.hit.zdb_id: 2142602-8

SSG: 12

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