We started this project with the utilization of an ISG screening approach. To this end we collaborated with Prof. Charles Rice from the Rockefeller University in New York, USA. We screened an ISG library (Schoggins et. al. Nature 2011, Schoggins et. al. Nature 2014) against the human CoV 229E (HCoV-229E). Interestingly we found one outstanding, very potent restriction factor, namely the ISG LY6E (Figure 1). We confirmed the antiviral activity of LY6E against the highly pathogenic MERS-CoV and SARS-CoV. In addition, a viral inhibition could be observed against HCoV-OC43 as well as murine hepatitis virus (MHV), confirming a broad antiviral role of this ISG against CoV infections. In order to analyze LY6E as innate species barrier, we analyzed its conservation and tested orthologous genes from rhesus macaque, mouse, bat and camel. Interestingly, all orthologous variants of this gene were able to inhibit human CoV, indicating that it is conserved across species. In addition, we tested CoV originating from camelid species (dromedary camel-229E-like CoV ACNO4 and JC50) and could show that they could be inhibited as well. We narrowed down its mechanism of action to virus entry, however, the precise mechanism is still elusive. In conclusion, we identified a novel ISG that is able to control pan-species coronavirus infections.
We disseminated the results of our research through different channels. We are currently preparing a manuscript for publication (Pfaender et. al. manuscript in preparation) in a high impact scientific journal. Furthermore, data has been shared at international conferences including the 29th Annual Meeting of the Society for Virology (Düsseldorf, Germany, oral presentation, abstract ID 132), the Positive Strand RNA Virus Meeting (Keystone Meeting, Killarney, Ireland; poster presentation, abstract ID 3058) and the European Congress of Virology Meeting 2019 (Rotterdam, Netherlands, poster presentation, abstract ID. 139). In addition, dissemination has been realized upon presentation of the data in internal seminars including regular progress reports and internal symposia.
With respect to Article 28 of the H2020 annotated model grant agreement, measures were taken to ensure exploitation of the research results. On the one hand, results will be exploited for future research. A “hit list” of possible candidate genes restricting coronavirus replication has been obtained which can be used for diverse follow up projects. Due to time limitations, we were not able to conduct a detailed analysis of the mechanism of action for our top hit but aim to address this question in future studies.