Viral infections constitute a major threat to public health with a significant impact on life expectancy, quality of life, and the economy. One of the first warning signs of viral infections is the presence of viral nucleic acids within the cell. Pattern recognition receptors (PRR), specialized molecules that bind to invading viral RNA, trigger the innate immune response, culminating in the production of cytokines and chemokines and the expression of protective antiviral proteins. A dysbalanced innate immune response renders patients highly susceptible to virus infections or, conversely, leads to overactive immunity associated with autoimmune disease.
We previously identified the protein kinase TAOK2 as a new player in the detection of viral RNA. In the absence of TAOK2, cells are less able to fight viral infection, and the induction of the innate immune response is compromised. In this project, I will define how TAOK2 recognizes viral RNA and how that affects the processes leading to the induction of the innate immune response. This will shed light on how the innate immune response, which needs to be kept in a delicate balance to fight off viral infection without overreacting to benign signals, is modulated and fine-tuned.