- Garcia, Gustavo;
- Irudayam, Joseph Ignatius;
- Jeyachandran, Arjit Vijey;
- Dubey, Swati;
- Chang, Christina;
- Cario, Sebastian Castillo;
- Price, Nate;
- Arumugam, Sathya;
- Marquez, Angelica L;
- Shah, Aayushi;
- Fanaei, Amir;
- Chakravarty, Nikhil;
- Joshi, Shantanu;
- Sinha, Sanjeev;
- French, Samuel W;
- Parcells, Mark S;
- Ramaiah, Arunachalam;
- Arumugaswami, Vaithilingaraja
RNA viruses continue to remain a threat for potential pandemics due to their rapid evolution. Potentiating host antiviral pathways to prevent or limit viral infections is a promising strategy. Thus, by testing a library of innate immune agonists targeting pathogen recognition receptors, we observe that Toll-like receptor 3 (TLR3), stimulator of interferon genes (STING), TLR8, and Dectin-1 ligands inhibit arboviruses, Chikungunya virus (CHIKV), West Nile virus, and Zika virus to varying degrees. STING agonists (cAIMP, diABZI, and 2',3'-cGAMP) and Dectin-1 agonist scleroglucan demonstrate the most potent, broad-spectrum antiviral function. Furthermore, STING agonists inhibit severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and enterovirus-D68 (EV-D68) infection in cardiomyocytes. Transcriptome analysis reveals that cAIMP treatment rescue cells from CHIKV-induced dysregulation of cell repair, immune, and metabolic pathways. In addition, cAIMP provides protection against CHIKV in a chronic CHIKV-arthritis mouse model. Our study describes innate immune signaling circuits crucial for RNA virus replication and identifies broad-spectrum antivirals effective against multiple families of pandemic potential RNA viruses.