The<i>Shigella flexneri</i>effector IpaH1.4 facilitates RNF213 degradation and protects cytosolic bacteria against interferon-induced ubiquitylation

Saavedra-Sanchez, Luz; Dickinson, Mary S.; Apte, Shruti; Zhang, Yifeng; de Jong, Maarten; Skavicus, Samantha; Heaton, Nicholas S.; Alto, Neal M.; Coers, Jörn

doi:10.1101/2024.09.05.611450

2024

DOI: 10.1101/2024.09.05.611450

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TheShigella flexnerieffector IpaH1.4 facilitates RNF213 degradation and protects cytosolic bacteria against interferon-induced ubiquitylation

Luz Saavedra-Sanchez,

Mary S. Dickinson,

Shruti Apte

et al.

Abstract: A central signal that marshals host defense against many infections is the lymphocyte-derived cytokine interferon-gamma (IFNγ). The IFNγ receptor is expressed on most human cells and its activation leads to the expression of antimicrobial proteins that execute diverse cell-autonomous immune programs. One such immune program consists of the sequential detection, ubiquitylation, and destruction of intracellular pathogens. Recently, the IFNγ-inducible ubiquitin E3 ligase RNF213 was identified as a pivotal mediato… Show more

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Bacterial Effector Screening Reveals RNF214 as a Virus Restriction Factor in Mammals

Embry,

Schad,

Rex

et al. 2024

Preprint

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Arboviruses are a group of arthropod transmitted viruses that pose a significant threat to public health. Identifying host factors that inhibit arbovirus infection is critical for the development of strategies to prevent or treat these infections. Previously, we showed that bacterial effector proteins can be used as molecular tools to identify host immunity factors in insect cells that restrict arbovirus replication (Embry et al., 2024). Bacteria secrete effectors into the host cell cytoplasm to inhibit various innate immune defenses. Here, we apply our bacterial effector screening system to identify host antiviral immunity factors in two mammalian hosts, bats and humans. By screening a library of 210 effectors encoded by seven distinct bacterial pathogens, we identified three bacterial effectors (IpaH4, SopB, and SidM) that enhance the replication of both togaviruses and rhabdoviruses in bat and human cells. We also discovered several effectors that enhance arbovirus replication in a virus or host specific manner. We further characterize the mechanism by which the Shigella flexneri encoded E3 ubiquitin ligase, IpaH4, enhances arbovirus infection in mammalian cells. Using yeast two hybrid, ubiquitin activated interaction traps, in vitro ubiquitination assays and cellular approaches, we show the uncharacterized mammalian RING domain containing protein, RNF214, to be directly targeted by IpaH4 for ubiquitination mediated degradation. Phylogenetic analyses of RNF214 proteins indicate they are widely conserved among many vertebrate species, suggesting an important evolutionary function. We show that RNF214 overexpression suppresses arbovirus infections in a manner dependent upon its putative E3 ubiquitin ligase activity, while RNF214 depletion enhances these infections in human and bat cells. These data suggest that RNF214 proteins are important innate immune factors involved in combating viral infection. Collectively, our work shows that bacterial effectors can be useful tools for uncovering novel mammalian antiviral machinery.

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Bacterial Effector Screening Reveals RNF214 as a Virus Restriction Factor in Mammals

Embry,

Schad,

Rex

et al. 2024

Preprint

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TheShigella flexnerieffector IpaH1.4 facilitates RNF213 degradation and protects cytosolic bacteria against interferon-induced ubiquitylation

Cited by 1 publication

References 63 publications

Bacterial Effector Screening Reveals RNF214 as a Virus Restriction Factor in Mammals

Bacterial Effector Screening Reveals RNF214 as a Virus Restriction Factor in Mammals

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