Giuseppe Balistreri scite author profile

The causative agent of coronavirus induced disease 2019 (COVID-19) is the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). For many viruses, tissue tropism is determined by the availability of virus receptors and entry cofactors on the surface of host cells. Here, we found that neuropilin-1 (NRP1), known to bind furin-cleaved substrates, significantly potentiates SARS-CoV-2 infectivity, an effect blocked by a monoclonal blocking antibody against NRP1. A SARS-CoV-2 mutant with an altered furin cleavage site did not depend on NRP1 for infectivity. Pathological analysis of human COVID-19 autopsies revealed SARS-CoV-2 infected cells including olfactory neuronal cells facing the nasal cavity positive for NRP1. Our data provide insight into SARS-CoV-2 cell infectivity and define a potential target for antiviral intervention.

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Phosphatidylinositol 3-Kinase-, Actin-, and Microtubule-Dependent Transport of Semliki Forest Virus Replication Complexes from the Plasma Membrane to Modified Lysosomes

Spuul

Balistreri

Kääriäinen

et al. 2010

J Virol

165

217

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Like other positive-strand RNA viruses, alphaviruses replicate their genomes in association with modified intracellular membranes. Alphavirus replication sites consist of numerous bulb-shaped membrane invaginations (spherules), which contain the double-stranded replication intermediates. Time course studies with Semliki Forest virus (SFV)-infected cells were combined with live-cell imaging and electron microscopy to reveal that the replication complex spherules of SFV undergo an unprecedented large-scale movement between cellular compartments. The spherules first accumulated at the plasma membrane and were then internalized using an endocytic process that required a functional actin-myosin network, as shown by blebbistatin treatment. Wortmannin and other inhibitors indicated that the internalization of spherules also required the activity of phosphatidylinositol 3-kinase. The spherules therefore represent an unusual type of endocytic cargo. After endocytosis, spherule-containing vesicles were highly dynamic and had a neutral pH. These primary carriers fused with acidic endosomes and moved long distances on microtubules, in a manner prevented by nocodazole. The result of the large-scale migration was the formation of a very stable compartment, where the spherules were accumulated on the outer surfaces of unusually large and static acidic vacuoles localized in the pericentriolar region. Our work highlights both fundamental similarities and important differences in the processes that lead to the modified membrane compartments in cells infected by distinct groups of positive-sense RNA viruses.All positive-strand RNA viruses replicate their genomes in association with cellular membranes. The formation and activity of the membrane-bound replication complexes (RCs) can result in extensive alteration of membrane structures (11,40,48). Different viruses use different cytoplasmic membrane compartments as platforms for replication. Currently, there is only a limited understanding of how the virus-encoded and cellular proteins coordinate the formation of the replicationinduced membrane structures. We address the mechanisms of membrane-bound replication with alphaviruses, particularly Semliki Forest virus (SFV). The alphaviruses comprise several human and animal pathogens, including the encephalitogenic alphaviruses (e.g., Western, Eastern, and Venezuelan equine encephalitis viruses) as well as the recently reemerging chikungunya virus, which belongs to the SFV clade of alphaviruses. During the past 5 years, chikungunya virus has caused more than 2 million infections and 500 deaths, and a new strain has spread throughout the areas surrounding the Indian Ocean (50). The alphaviruses use mosquitoes as intermediate hosts and transmission vectors, and at present no vaccines or antivirals are available to control these infections.The cytoplasmic replication of alphaviruses depends on the four viral nonstructural (ns) proteins, nsP1 to nsP4, which are all essential and act as a membrane-bound replication complex. The nsPs are tran...

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Oligomers of the ATPase EHD2 confine caveolae to the plasma membrane through association with actin

et al. 2012

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The Host Nonsense-Mediated mRNA Decay Pathway Restricts Mammalian RNA Virus Replication

Balistreri

Horváth

Schweingruber

et al. 2014

Cell Host & Microbe

155

187

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In addition to classically defined immune mechanisms, cell-intrinsic processes can restrict virus infection and have shaped virus evolution. The details of this virus-host interaction are still emerging. Following a genome-wide siRNA screen for host factors affecting replication of Semliki Forest virus (SFV), a positive-strand RNA (+RNA) virus, we found that depletion of nonsense-mediated mRNA decay (NMD) pathway components Upf1, Smg5, and Smg7 led to increased levels of viral proteins and RNA and higher titers of released virus. The inhibitory effect of NMD was stronger when virus replication efficiency was impaired by mutations or deletions in the replicase proteins. Consequently, depletion of NMD components resulted in a more than 20-fold increase in production of these attenuated viruses. These findings indicate that a cellular mRNA quality control mechanism serves as an intrinsic barrier to the translation of early viral proteins and the amplification of +RNA viruses in animal cells.

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