Proteomics

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A novel paracrine induction of RNA Granules by Feline Calicivirus


ABSTRACT: We are here presenting a new paracrine induction of RNA granules by viruses. Infection by viruses imposes major stress on the host cell. In response to this stress, infected cells can induce several defence mechanisms, which include the activation of stress response pathways and the innate immune response. These often result in an inhibition of translation culminating in the assembly of cytoplasmic granules called stress granules (SGs). SGs assembly follows from liquid phase separation of aggregation-prone proteins such G3BP1 and TIA-1, leading to the sequestration of mRNAs. Because this threatens viral gene expression, viruses need to evade these stress response pathways to propagate. Using feline calicivirus (FCV), surrogate for norovirus, the main virus responsible for gastroenteritis outbreaks worldwide, we previously showed that FCV impairs SGs assembly by cleaving the scaffold protein G3BP1. Interestingly, we observed that uninfected bystander cells assembled G3BP1 granules, suggesting a paracrine response trigged by the infection. We now present evidence that virus-free supernatant generated from infected cells can induce the formation of RNA granules. We have characterised the dynamic of the granules assembly via confocal microscopy. Moreover, we provide an understanding of paracrine granules function and specificity through their affinity purification followed by proteomics and RNAseq analysis of their proteins and mRNAs content. This helps to define rules of assembly and novel functions for paracrine granules highlighting fundamental differences with canonical stress granules.

INSTRUMENT(S): Orbitrap Fusion

ORGANISM(S): Felis Catus (cat) (felis Silvestris Catus)

TISSUE(S): Epithelial Cell, Kidney

DISEASE(S): Disease Free

SUBMITTER: Valentina Iadevaia  

LAB HEAD: Nicolas Locker

PROVIDER: PXD021881 | Pride | 2022-03-14

REPOSITORIES: Pride

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Publications

Novel stress granule-like structures are induced via a paracrine mechanism during viral infection.

Iadevaia Valentina V   Burke James M JM   Eke Lucy L   Moller-Levet Carla C   Parker Roy R   Locker Nicolas N  

Journal of cell science 20220224 4


To rapidly adapt to stresses such as infections, cells have evolved several mechanisms, which include the activation of stress response pathways and the innate immune response. These stress responses result in the rapid inhibition of translation and condensation of stalled mRNAs with RNA-binding proteins and signalling components into cytoplasmic biocondensates called stress granules (SGs). Increasing evidence suggests that SGs contribute to antiviral defence, and thus viruses need to evade thes  ...[more]

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