Influenza A virus ribonucleoproteins modulate host recycling by competing with Rab11 effectors.

Sílvia Vale-Costa,Ana Laura Sousa,Marta Alenquer,Bárbara Kellen,Erin M Tranfield,José Ramalho,Maria João Amorim

doi:10.1242/jcs.188409

Sílvia Vale-Costa, Ana Laura Sousa + Show 5 more

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https://doi.org/10.1242/jcs.188409

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Abstract

Influenza A virus assembly is an unclear process, whereby individual virion components form an infectious particle. The segmented nature of the influenza A genome imposes a problem to assembly because it requires packaging of eight distinct RNA particles (vRNPs). It also allows genome mixing from distinct parental strains, events associated with influenza pandemic outbreaks. It is important to public health to understand how segmented genomes assemble, a process that is dependent on the transport of components to assembly sites. Previously, it has been shown that vRNPs are carried by recycling endosome vesicles, resulting in a change of Rab11 distribution. Here, we describe that vRNP binding to recycling endosomes impairs recycling endosome function, by competing for Rab11 binding with family-interacting proteins, and that there is a causal relationship between Rab11 ability to recruit family-interacting proteins and Rab11 redistribution. This competition reduces recycling sorting at an unclear step, resulting in clustering of single- and double-membraned vesicles. These morphological changes in Rab11 membranes are indicative of alterations in protein and lipid homeostasis during infection. Vesicular clustering creates hotspots of the vRNPs that need to interact to form an infectious particle.

Highlights

Influenza A virus (IAV) causes yearly epidemics and recurrent pandemics of severe outcomes and increased mortality
In the presence of leptomycin B (LMB), viral ribonucleoprotein (vRNP) were greatly retained in the nucleus (Elton et al, 2001) (Fig. 2B), compared with their cytosolic location from 8 h post infection onwards in the control (Fig. 2A). vRNP nuclear retention resulted in the maintenance of Rab11 vesicular areas in the small interval until 24 h post infection, a modest increase of 11% in the intermediate class was observed
Segmentation imposes a problem on viral assembly, because eight-segment vRNPs need to meet in order to form an infectious virion

Summary

Introduction

Influenza A virus (IAV) causes yearly epidemics and recurrent pandemics of severe outcomes and increased mortality. Each segment is arranged as a viral ribonucleoprotein (vRNP) by forming a complex with one copy of the viral RNA polymerase and several copies of nucleoprotein. Synthesized vRNPs are exported to the cytoplasm and transported to the apical plasma membrane where virion assembly, budding and release occurs (Hutchinson and Fodor, 2013). Virion assembly involves selective packaging of RNA segments into an M1-coated cavity that is delimited by plasma membrane, where the transmembrane proteins hemagglutinin (HA), neuraminidase and M2 are embedded. It is of interest to human health to explain the mechanisms underlying selection of the eight-segment vRNPs to form an infectious virion, to which trafficking of vRNPs to the surface contribute

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