Claire L. Donald scite author profile

The exogenous siRNA pathway is important in restricting arbovirus infection in mosquitoes. Less is known about the role of the PIWI-interacting RNA pathway, or piRNA pathway, in antiviral responses. Viral piRNA-like molecules have recently been described following infection of mosquitoes and derived cell lines with several arboviruses. The piRNA pathway has thus been suggested to function as an additional small RNA-mediated antiviral response to the known infection-induced siRNA response. Here we show that piRNA-like molecules are produced following infection with the naturally mosquito-borne Semliki Forest virus in mosquito cell lines. We show that knockdown of piRNA pathway proteins enhances the replication of this arbovirus and defines the contribution of piRNA pathway effectors, thus characterizing the antiviral properties of the piRNA pathway. In conclusion, arbovirus infection can trigger the piRNA pathway in mosquito cells, and knockdown of piRNA proteins enhances virus production.

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Aedes aegypti Piwi4 Is a Noncanonical PIWI Protein Involved in Antiviral Responses

Varjak

Maringer

Watson

et al. 2017

mSphere

110

238

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Mosquitoes transmit several pathogenic viruses, for example, the chikungunya and Zika viruses. In mosquito cells, virus replication intermediates in the form of double-stranded RNA are cleaved by Dcr2 into 21-nucleotide-long siRNAs, which in turn are used by Ago2 to target the virus genome. A different class of virus-derived small RNAs, PIWI-interacting RNAs (piRNAs), have also been found in infected insect cells. These piRNAs are longer and are produced in a Dcr2-independent manner. The only known antiviral protein in the PIWI family is Piwi4, which is not involved in piRNA production. It is associated with key proteins of the siRNA and piRNA pathways, although its antiviral function is independent of their actions.

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A plasmid DNA-launched SARS-CoV-2 reverse genetics system and coronavirus toolkit for COVID-19 research

et al. 2021

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The recent emergence of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), the underlying cause of Coronavirus Disease 2019 (COVID-19), has led to a worldwide pandemic causing substantial morbidity, mortality, and economic devastation. In response, many laboratories have redirected attention to SARS-CoV-2, meaning there is an urgent need for tools that can be used in laboratories unaccustomed to working with coronaviruses. Here we report a range of tools for SARS-CoV-2 research. First, we describe a facile single plasmid SARS-CoV-2 reverse genetics system that is simple to genetically manipulate and can be used to rescue infectious virus through transient transfection (without in vitro transcription or additional expression plasmids). The rescue system is accompanied by our panel of SARS-CoV-2 antibodies (against nearly every viral protein), SARS-CoV-2 clinical isolates, and SARS-CoV-2 permissive cell lines, which are all openly available to the scientific community. Using these tools, we demonstrate here that the controversial ORF10 protein is expressed in infected cells. Furthermore, we show that the promising repurposed antiviral activity of apilimod is dependent on TMPRSS2 expression. Altogether, our SARS-CoV-2 toolkit, which can be directly accessed via our website at https://mrcppu-covid.bio/, constitutes a resource with considerable potential to advance COVID-19 vaccine design, drug testing, and discovery science.

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Claire L. Donald

Knockdown of piRNA pathway proteins results in enhanced Semliki Forest virus production in mosquito cells

Aedes aegypti Piwi4 Is a Noncanonical PIWI Protein Involved in Antiviral Responses

A plasmid DNA-launched SARS-CoV-2 reverse genetics system and coronavirus toolkit for COVID-19 research

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