Recapitulating influenza virus infection and facilitating antiviral and neuroprotective screening in tractable brain organoids

Human pluripotent stem cell derived brain organoids offer an unprecedented opportunity for various applications as in vitro model. Currently, human brain organoids as models have been used to understand virus-induced neurotoxicity. Methods: The brain organoids were separately challenged by multiple viruses including influenza viruses (H1N1-WSN and H3N2-HKT68), Enteroviruses (EV68 and EV71) and Severe Fever with Thrombocytopenia Syndrome Virus (SFTSV) to investigate the impaired effect of these viruses on human brain development. Results: The brain organoids challenged by influenza viruses had decreased overall organoid size, while enteroviruses infected brain organoids displayed the opposite result. Then, we found WSN preferentially infected MAP2+ neurons compared to SOX2+ neural stem cells (NSCs) and GFAP+ astrocytes in brain organoids, and induced apoptosis of NSCs and neurons, and released inflammatory factors (TNF-α, INF-γ, and IL-6), facilitating brain damage. Furthermore, transcriptional profiling revealed several co-upregulated genes ( CSAG3 and OAS2 ) and co-downregulated genes ( CDC20B , KCNJ13 , OTX2-AS1 ) after WSN infection for 24 hpi and 96 hpi, implicating target for antiviral drugs development. Finally, we explored compound PYC-12 could significantly suppress virus infection, apoptosis, and inflammatory responses. Conclusions: Collectively, we established a tractable experimental model to investigate the impact and mechanism of virus infection on human brain development.