Miguel Rodríguez Pulido scite author profile

Foot-and-mouth disease virus (FMDV) infection induces major changes in the host cell including the shutoff of cellular protein synthesis. Here, protein extracts from FMDV-infected cells have been used to monitor changes in the profile of RNA-binding factors interacting with regulatory regions of the viral RNA. Relevant differences have been detected in the pattern of interaction with proteins prepared from either infected or uninfected cells with RNA probes encompassing the internal ribosome entry site (IRES), the 5' and 3'end regions. The binding patterns obtained for two divergent FMDV isolates showed differences depending on the viral isolate used. The identity of the host proteins giving a shifted binding pattern to RNA regulatory regions has been inferred by immunoblotting. Our results show that polypyrimidine tract-binding protein (PTB) and two subunits of translation initiation factor eIF3 interacting with the IRES undergo proteolytic processing during FMDV infection. In addition, poly(A)-binding protein (PABP), interacting with the 3'end of the viral RNA is partially processed. Proteolysis of eIF3a, eIF3b, PABP and PTB correlated with the extent of cytopathic effect induced by FMDV in infected cells.

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Innate immune sensor LGP2 is cleaved by the Leader protease of foot-and-mouth disease virus

Pulido

Sánchez-Aparicio

Martínez‐Salas

et al. 2018

PLoS Pathog

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The RNA helicase LGP2 (Laboratory of Genetics and Physiology 2) is a non-signaling member of the retinoic acid-inducible gene-I (RIG-I)-like receptors (RLRs), whose pivotal role on innate immune responses against RNA viruses is being increasingly uncovered. LGP2 is known to work in synergy with melanoma differentiation-associated gene 5 (MDA5) to promote the antiviral response induced by picornavirus infection. Here, we describe the activity of the foot-and-mouth disease virus (FMDV) Leader protease (Lpro) targeting LGP2 for cleavage. When LGP2 and Lpro were co-expressed, cleavage products were observed in an Lpro dose-dependent manner while co-expression with a catalytically inactive Lpro mutant had no effect on LGP2 levels or pattern. We further show that Lpro localizes and immunoprecipitates with LGP2 in transfected cells supporting their interaction within the cytoplasm. Evidence of LGP2 proteolysis was also detected during FMDV infection. Moreover, the inhibitory effect of LGP2 overexpression on FMDV growth observed was reverted when Lpro was co-expressed, concomitant with lower levels of IFN-β mRNA and antiviral activity in those cells. The Lpro target site in LGP2 was identified as an RGRAR sequence in a conserved helicase motif whose replacement to EGEAE abrogated LGP2 cleavage by Lpro. Taken together, these data suggest that LGP2 cleavage by the Leader protease of aphthoviruses may represent a novel antagonistic mechanism for immune evasion.

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Molecular Mechanisms of Foot-and-Mouth Disease Virus Targeting the Host Antiviral Response

Pulido

Sáiz

2017

Front. Cell. Infect. Microbiol.

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Foot-and-mouth disease virus (FMDV) is the causative agent of an acute vesicular disease affecting pigs, cattle and other domestic, and wild animals worldwide. The aim of the host interferon (IFN) response is to limit viral replication and spread. Detection of the viral genome and products by specialized cellular sensors initiates a signaling cascade that leads to a rapid antiviral response involving the secretion of type I- and type III-IFNs and other antiviral cytokines with antiproliferative and immunomodulatory functions. During co-evolution with their hosts, viruses have acquired strategies to actively counteract host antiviral responses and the balance between innate response and viral antagonism may determine the outcome of disease and pathogenesis. FMDV proteases Lpro and 3C have been found to antagonize the host IFN response by a repertoire of mechanisms. Moreover, the putative role of other viral proteins in IFN antagonism is being recently unveiled, uncovering sophisticated immune evasion strategies different to those reported to date for other members of the Picornaviridae family. Here, we review the interplay between antiviral responses induced by FMDV infection and viral countermeasures to block them. Research on strategies used by viruses to modulate immunity will provide insights into the function of host pathways involved in defense against pathogens and will also lead to development of new therapeutic strategies to fight virus infections.

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