Project description:In the parasitic wasp Venturia canescens sexual and asexual populations coexist in sympatry and showed distinct foraging behaviours. By sequencing head transcriptome from sexual and asexual population, we assess transcriptomic divergence between the 2 populations.
Project description:Viral antigens can activate phagocytes inducing inflammation but the mechanisms are barely explored. This study aimed to investigate the capability of viral oligomeric proteins of different structure to induce inflammatory response in macrophages. Human THP-1 cell line was used to prepare macrophages which were treated with filamentous nucleocapsid-like particles (NLPs) of paramyxoviruses and spherical virus-like particles (VLPs) of human polyomaviruses. The effects of viral proteins on cell viability, pro-inflammatory cytokines’ production and formation of NLRP3 inflammasome components, ASC specks, were investigated. Filamentous NLPs did not induce inflammation markers while spherical VLPs mediated inflammatory response followed by NLRP3 inflammasome activation. Inhibitors of cathepsins and K+ efflux decreased IL-1β levels and cell death indicating a complex inflammasome activation process. Similar activation pattern was observed in primary human macrophages treated with VLPs. Single cell RNAseq analysis of THP-1 cells revealed several cell activation states characterized by high expression of inflammation-related genes. This study provides new insights into interaction of viral proteins with innate immune cells and suggests that structural properties of oligomeric proteins may define cell activation pathways.
Project description:Noroviruses cause immense sporadic gastroenteritis outbreaks worldwide. Upcoming genotypes, which are divided based on VP1 sequence, further enhance this public thread regularly. Self-assembling properties of the human norovirus major capsid protein VP1 are crucial for using virus-like particles (VLPs) for vaccine development. However, there is no vaccine available yet. Here, VLPs from different variants produced in insect cells are characterized in detail using a set of biophysical and structural tools.