Co-opted Cellular Sac1 Lipid Phosphatase and PI(4)P Phosphoinositide Are Key Host Factors during the Biogenesis of the Tombusvirus Replication Compartment

Sasvari, Zsuzsanna; Lin, Wenwu; Inaba, Jun-ichi; Xu, Kai; Kovalev, Nikolay; Nagy, Peter D.

doi:10.1128/jvi.01979-19

Cited by 25 publications

(31 citation statements)

References 108 publications

(174 reference statements)

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“…Another critical host protein in vMCS formation/function is Sac1p PI4P phosphatase, which allows the directional transfer of sterols from ER to the acceptor membranes through converting PI(4)P phosphoinositide to PI phosphatidylinositol [35]. PI(4)P is used by oxysterol localization of RFP-AtTim21 with the BiFC signal, indicating that the interactions between p33 replication protein and AtFis1A/B occur in the large viral replication compartments consisting of aggregated mitochondria.…”

Section: Interaction Between the Host Fis1 Protein And Sac1 Pi4p Phosmentioning

confidence: 99%

“…Another proposed important function of vMCS is to provide PI(4)P phosphoinositide for the OSBP-like oxysterol transfer proteins to drive the directional sterol exchange between the opposing membranes [75][76][77][78][79]. We have previously shown that TBSV co-opt the Stt4p PI4K kinase to VROs to produce PI(4)P, which is critical for VRO biogenesis [35]. To test if Fis1p affects the subcellular distribution of Stt4p PI4K during TBSV replication, we used fis1Δ yeast expressing the viral replication proteins.…”

Section: Plos Pathogensmentioning

confidence: 99%

“…In addition, a major role for global phospholipid and sterol biosynthesis has been revealed [26][27][28]. Also critical roles of phospatidylethanolamine (PE), phospatidylserine, phosphoinositides and sterols in formation of VRCs and activation of the viralcoded p92 RdRp has been shown [29][30][31][32][33][34][35][36][37][38]. Sterols and PE bind directly to the p33 replication protein, which is the master regulator of VRC assembly and viral (+)RNA recruitment into VRCs [29,39].…”

Section: Introductionmentioning

confidence: 99%

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Dynamic interplay between the co-opted Fis1 mitochondrial fission protein and membrane contact site proteins in supporting tombusvirus replication

et al. 2021

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Plus-stranded RNA viruses have limited coding capacity and have to co-opt numerous pro-viral host factors to support their replication. Many of the co-opted host factors support the biogenesis of the viral replication compartments and the formation of viral replicase complexes on subverted subcellular membrane surfaces. Tomato bushy stunt virus (TBSV) exploits peroxisomal membranes, whereas the closely-related carnation Italian ringspot virus (CIRV) hijacks the outer membranes of mitochondria. How these organellar membranes can be recruited into pro-viral roles is not completely understood. Here, we show that the highly conserved Fis1 mitochondrial fission protein is co-opted by both TBSV and CIRV via direct interactions with the p33/p36 replication proteins. Deletion of FIS1 in yeast or knockdown of the homologous Fis1 in plants inhibits tombusvirus replication. Instead of the canonical function in mitochondrial fission and peroxisome division, the tethering function of Fis1 is exploited by tombusviruses to facilitate the subversion of membrane contact site (MCS) proteins and peroxisomal/mitochondrial membranes for the biogenesis of the replication compartment. We propose that the dynamic interactions of Fis1 with MCS proteins, such as the ER resident VAP tethering proteins, Sac1 PI4P phosphatase and the cytosolic OSBP-like oxysterol-binding proteins, promote the formation and facilitate the stabilization of virus-induced vMCSs, which enrich sterols within the replication compartment. We show that this novel function of Fis1 is exploited by tombusviruses to build nuclease-insensitive viral replication compartment.

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Section: Interaction Between the Host Fis1 Protein And Sac1 Pi4p Phosmentioning

confidence: 99%

Section: Plos Pathogensmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Dynamic interplay between the co-opted Fis1 mitochondrial fission protein and membrane contact site proteins in supporting tombusvirus replication

et al. 2021

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“…Tomato bushy stunt virus (TBSV) and the closely related cucumber necrosis virus (CNV) use peroxisomal membranes, whereas carnation Italian ringspot virus (CIRV) exploits the outer membranes of mitochondria. The ER also contributes to VRO formation [ 16 – 18 ] and ER membranes even support TBSV replication efficiently in the absence of peroxisomes [ 19 ]. TBSV, similar to other (+)RNA viruses, induces major metabolic and structural changes in the infected cells, including aggregation of peroxisomal and ER membranes, membrane deformations by forming hundreds of 40–70 nm spherules that harbor the VRCs [ 6 , 20 , 21 ].…”

Section: Introductionmentioning

confidence: 99%

Key interplay between the co-opted sorting nexin-BAR proteins and PI3P phosphoinositide in the formation of the tombusvirus replicase

2020

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Positive-strand RNA viruses replicate in host cells by forming large viral replication organelles, which harbor numerous membrane-bound viral replicase complexes (VRCs). In spite of its essential role in viral replication, the biogenesis of the VRCs is not fully understood. The authors identified critical roles of cellular membrane-shaping proteins and PI(3)P (phosphatidylinositol 3-phosphate) phosphoinositide, a minor lipid with key functions in endosomal vesicle trafficking and autophagosome biogenesis, in VRC formation for tomato bushy stunt virus (TBSV). The authors show that TBSV co-opts the endosomal SNX-BAR (sorting nexin with Bin/Amphiphysin/Rvs- BAR domain) proteins, which bind to PI(3)P and have membrane-reshaping function during retromer tubular vesicle formation, directly into the VRCs to boost progeny viral RNA synthesis. We find that the viral replication protein-guided recruitment and pro-viral function of the SNX-BAR proteins depends on enrichment of PI(3)P at the site of viral replication. Depletion of SNX-BAR proteins or PI(3)P renders the viral double-stranded (ds)RNA replication intermediate RNAi-sensitive within the VRCs in the surrogate host yeast and in planta and ribonuclease-sensitive in cell-free replicase reconstitution assays in yeast cell extracts or giant unilamellar vesicles (GUVs). Based on our results, we propose that PI(3)P and the co-opted SNX-BAR proteins are coordinately exploited by tombusviruses to promote VRC formation and to play structural roles and stabilize the VRCs during viral replication. Altogether, the interplay between the co-opted SNX-BAR membrane-shaping proteins, PI(3)P and the viral replication proteins leads to stable VRCs, which provide the essential protection of the viral RNAs against the host antiviral responses.

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“…Thus, over 100 yeast proteins were shown to interact with P33 or P92 and approximately 400 host proteins that could negatively or positively affect TBSV replication or recombination were identified [ 11 ]. These vast number of co-opted proteins comprise cellular translation factors, heat shock proteins, DEAD-box helicases, lipid biosynthesis and transfer enzymes, cytoskeleton components and even cellular energy-metabolism enzymes that altogether are reprogrammed to provide the optimal intracellular environment for TBSV replication [ 11 , 12 , 23 , 24 , 25 , 26 ].…”

Section: Introductionmentioning

confidence: 99%

Characterization of a DCL2-Insensitive Tomato Bushy Stunt Virus Isolate Infecting Arabidopsis thaliana

Incarbone

Scheer

Hily

et al. 2020

Viruses

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Tomato bushy stunt virus (TBSV), the type member of the genus Tombusvirus in the family Tombusviridae is one of the best studied plant viruses. The TBSV natural and experimental host range covers a wide spectrum of plants including agricultural crops, ornamentals, vegetables and Nicotiana benthamiana. However, Arabidopsis thaliana, the well-established model organism in plant biology, genetics and plant–microbe interactions is absent from the list of known TBSV host plant species. Most of our recent knowledge of the virus life cycle has emanated from studies in Saccharomyces cerevisiae, a surrogate host for TBSV that lacks crucial plant antiviral mechanisms such as RNA interference (RNAi). Here, we identified and characterized a TBSV isolate able to infect Arabidopsis with high efficiency. We demonstrated by confocal and 3D electron microscopy that in Arabidopsis TBSV-BS3Ng replicates in association with clustered peroxisomes in which numerous spherules are induced. A dsRNA-centered immunoprecipitation analysis allowed the identification of TBSV-associated host components including DRB2 and DRB4, which perfectly localized to replication sites, and NFD2 that accumulated in larger viral factories in which peroxisomes cluster. By challenging knock-out mutants for key RNAi factors, we showed that TBSV-BS3Ng undergoes a non-canonical RNAi defensive reaction. In fact, unlike other RNA viruses described, no 22nt TBSV-derived small RNA are detected in the absence of DCL4, indicating that this virus is DCL2-insensitive. The new Arabidopsis-TBSV-BS3Ng pathosystem should provide a valuable new model for dissecting plant–virus interactions in complement to Saccharomyces cerevisiae.

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Co-opted Cellular Sac1 Lipid Phosphatase and PI(4)P Phosphoinositide Are Key Host Factors during the Biogenesis of the Tombusvirus Replication Compartment

Cited by 25 publications

References 108 publications

Dynamic interplay between the co-opted Fis1 mitochondrial fission protein and membrane contact site proteins in supporting tombusvirus replication

Dynamic interplay between the co-opted Fis1 mitochondrial fission protein and membrane contact site proteins in supporting tombusvirus replication

Key interplay between the co-opted sorting nexin-BAR proteins and PI3P phosphoinositide in the formation of the tombusvirus replicase

Characterization of a DCL2-Insensitive Tomato Bushy Stunt Virus Isolate Infecting Arabidopsis thaliana

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