A Combined Proteomics/Genomics Approach Links Hepatitis C Virus Infection with Nonsense-Mediated mRNA Decay

Ramage, Holly; Kumar, G. Renuka; Verschueren, Erik; Johnson, Jeffrey R.; Dollen, John Von; Johnson, Tim; Newton, Billy W.; Shah, Priya S.; Horner, Julie A.; Krogan, Nevan J.; Ott, Melanie

doi:10.1016/j.molcel.2014.12.028

Cited by 131 publications

(158 citation statements)

References 71 publications

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“…To determine whether diverse intracellular pathogens target similar host processes, we compared our Inc-human interactome to three recently assembled virus-human interactomes: HIV (Jager et al, 2011), KSHV (Davis et al, 2014) and HCV (Ramage et al, 2015). These viral interactomes were derived using the same pipeline that we employed, providing an opportunity for cross-pathogen analyses.…”

Section: Resultsmentioning

confidence: 99%

“…(C) Overlap of Chlamydia prey with previously published AP-MS interactomes of HIV (Jager et al, 2011), HCV (Ramage et al, 2015), and KSHV (Davis et al, 2014). p -values determined by the hyper-geometric test.…”

Section: Figurementioning

confidence: 99%

“…Inc-human interactions (blue lines) were identified by AP-MS. Interactions between human proteins (dark grey lines) were curated from CORUM and STRING databases. Inc human prey in common with HIV, KSHV, or HCV prey (Davis et al, 2014; Jager et al, 2011; Ramage et al, 2015) are outlined in red. A subset of identified host complexes or proteins with similar functions are labeled.…”

Section: Figurementioning

confidence: 99%

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Global Mapping of the Inc-Human Interactome Reveals that Retromer Restricts Chlamydia Infection

Mirrashidi

Elwell

Verschueren

et al. 2015

Cell Host & Microbe

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SUMMARY Chlamydia trachomatis is a leading cause of genital and ocular infections for which no vaccine exists. Upon entry into host cells, C. trachomatis resides within a membrane bound compartment—the inclusion--and secretes inclusion membrane proteins (Incs) that are thought to modulate the host-bacterium interface. To expand our understanding of Inc function(s), we subjected putative C. trachomatis Incs to affinity purification-mass spectroscopy (AP-MS). We identified Inc-human interactions for 38/58 Incs with enrichment in host processes consistent with Chlamydia’s intracellular lifecycle. There is significant overlap between Inc targets and viral proteins, suggesting common pathogenic mechanisms among obligate intracellular microbes. IncE binds to sorting nexins (SNXs) 5/6, components of the retromer, resulting in SNX5/6 relocalization to the inclusion membrane and enhanced inclusion membrane tubulation. Depletion of retromer components enhances progeny production, revealing that retromer restricts Chlamydia infection. This study demonstrates the value of proteomics in unveiling host-pathogen interactions in genetically challenging microbes.

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Section: Resultsmentioning

confidence: 99%

Section: Figurementioning

confidence: 99%

Section: Figurementioning

confidence: 99%

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Global Mapping of the Inc-Human Interactome Reveals that Retromer Restricts Chlamydia Infection

Mirrashidi

Elwell

Verschueren

et al. 2015

Cell Host & Microbe

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174

299

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“…Importantly, the relevance of modular nature of RRP is emphasized by the result that the majority of the top ten RRP ranked proteins from both interactomes would have had much lower ranks if only the RNAi screen from the PC3 cell line would have been used as a functional filter (Supplemental Table 11). Therefore, RRP clearly offers an added value beyond the already existing bioinformatics (3,4,8) and RNAi approaches (38,39). Based on the vast amount of gene expression data covering also all functionally nonannotated genes, RRP could in principle be used for any gene whose function can be addressed by an siRNA-based screening assay, including not only cell survival analysis but also a variety of high-content imaging based phenotypic screens.…”

Section: Discussionmentioning

confidence: 99%

Relevance Rank Platform (RRP) for Functional Filtering of High Content Protein–Protein Interaction Data*

Pokharel

Saarela

Szwajda

et al. 2015

Molecular & Cellular Proteomics

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High content protein interaction screens have revolutionized our understanding of protein complex assembly. However, one of the major challenges in translation of high content protein interaction data is identification of those interactions that are functionally relevant for a particular biological question. To address this challenge, we developed a relevance ranking platform (RRP), which consist of modular functional and bioinformatic filters to provide relevance rank among the interactome proteins. We demonstrate the versatility of RRP to enable a systematic prioritization of the most relevant interaction partners from high content data, highlighted by the analysis of cancer relevant protein interactions for oncoproteins Pin1 and PME-1. We validated the importance of selected interactions by demonstration of PTOV1 and CSKN2B as novel regulators of Pin1 target c-Jun phosphorylation and reveal previously unknown interacting proteins that may mediate PME-1 effects via PP2A-inhibition. The RRP framework is modular and can be modified to answer versatile research problems depending on the nature of the biological question under study. Based on comparison of RRP to other existing filtering tools, the presented data indicate that RRP offers added value especially for the analysis of interacting proteins for which there is no sufficient prior knowledge available. Finally, we encourage the use of RRP in combination with either SAINT or CRAPome computational tools for selecting the candidate interactors that fulfill the both important requirements, functional relevance, and high confidence interaction detection. Molecular & Cellular

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“…This approach has been used to map global host-pathogen PPIs for HIV-1 (Jäger et al, 2012a), Herpes (Davis et al, 2015), and Hepatitis C (Ramage et al, 2015), as well as to study the PPIs of individual viral proteins in HPV (Tan et al, 2012; White et al, 2012a, 2012b), influenza (York et al, 2014), and picornaviruses (Greninger et al, 2012). Historically, these types of proteomic analyses have focused on a single virus or closely related sets of viruses, and typically from the same (human) host.…”

Section: Introductionmentioning

confidence: 99%

Lineage-Specific Viral Hijacking of Non-canonical E3 Ubiquitin Ligase Cofactors in the Evolution of Vif Anti-APOBEC3 Activity

et al. 2015

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SUMMARY HIV-1 encodes the accessory protein Vif, which hijacks a host Cullin-RING ubiquitin ligase (CRL) complex as well as the non-canonical cofactor CBFβ, to antagonize APOBEC3 antiviral proteins. Non-canonical cofactor recruitment to CRL complexes by viral factors, to date, has only been attributed to HIV-1 Vif. To further study this phenomenon, we employed a comparative approach combining proteomic, biochemical, structural, and virological techniques to investigate Vif complexes across the lentivirus genus, including primate (HIV-1, SIVmac) and non-primate (FIV, BIV, and MVV) viruses. We find that CBFβ is completely dispensable for the activity of non-primate lentiviral Vif proteins. Furthermore, we find that BIV Vif requires no cofactor, and that MVV Vif requires a novel cofactor, Cyclophilin A (CYPA), for stable CRL complex formation and anti-APOBEC3 activity. We propose modular conservation of Vif complexes allows for potential exaptation of novel functions through the acquisition of non-CRL associated host cofactors while preserving anti-APOBEC3 activity.

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A Combined Proteomics/Genomics Approach Links Hepatitis C Virus Infection with Nonsense-Mediated mRNA Decay

Cited by 131 publications

References 71 publications

Global Mapping of the Inc-Human Interactome Reveals that Retromer Restricts Chlamydia Infection

Global Mapping of the Inc-Human Interactome Reveals that Retromer Restricts Chlamydia Infection

Relevance Rank Platform (RRP) for Functional Filtering of High Content Protein–Protein Interaction Data*

Lineage-Specific Viral Hijacking of Non-canonical E3 Ubiquitin Ligase Cofactors in the Evolution of Vif Anti-APOBEC3 Activity

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