Norovirus replication in human intestinal epithelial cells is restricted by the interferon-induced JAK/STAT signalling pathway and RNA Polymerase II mediated transcriptional responses

Human noroviruses (HuNoV) are a leading cause of viral gastroenteritis worldwide and a significant cause of morbidity and mortality in all age groups. The recent finding that HuNoV can be propagated in B cells and mucosa derived intestinal epithelial organoids (IEOs), has transformed our capability to dissect the life cycle of noroviruses. Using RNA-Seq of HuNoV infected intestinal epithelial cells (IECs), we have found that replication of HuNoV in IECs results in interferon-induced transcriptional responses and that HuNoV replication in IECs is sensitive to IFN. This contrasts with previous studies that suggest that the innate immune response may play no role in the restriction of HuNoV replication in immortalised cells. We demonstrate that the inhibition of JAK1/JAK2 enhances HuNoV replication in IECs. Surprisingly, targeted inhibition of cellular RNA polymerase II-mediated transcription was not detrimental to HuNoV replication, but enhanced replication to a greater degree compared to blocking of JAK signalling directly. Furthermore, we demonstrate for the first time that IECs generated from genetically modified intestinal organoids, engineered to be deficient in the interferon response, are more permissive to HuNoV infection. Together our work identifies the IFN-induced transcriptional responses restrict HuNoV replication in IECs and demonstrates that the inhibition of these responses by modifications to the culture conditions can greatly enhance the robustness of the norovirus culture system.ImportanceNoroviruses are a major cause of gastroenteritis worldwide yet the challenges associated with their growth culture has greatly hampered the development of therapeutic approaches and has limited our understanding of cellular pathways that control infection. Here we show that human intestinal epithelial cells, the first point of entry of human noroviruses into the host, limit virus replication by the induction of the innate responses. Furthermore we show that modulating the ability of intestinal epithelial cells to induce transcriptional responses to HuNoV infection can significantly enhance human norovirus replication in culture. Collectively our findings provide new insights into the biological pathways that control norovirus infection but also identify mechanisms to enhance the robustness of norovirus culture.