Effects of TcpC's NADase Activity on Inhibition of Innate Immune Signaling

Abstract The innate immune system is activated by pattern recognition receptors such as Toll-like receptors (TLRs), which differentiate between self and non-self by recognizing distinct molecular structures on pathogens. As this process threatens pathogen survival in the host, bacteria have developed mechanisms to combat this. Uropathogenic Escherichia coli (UPEC) express the Toll/Interleukin-1 Receptor (TIR) domain-containing protein TcpC, which inhibits the function of TLRs by binding to the signaling adapter protein myeloid differentiation factor 88 (MyD88). Bacterial TIR proteins, including TcpC, recently have been found to also exhibit NADase activity. We hypothesize that the ability of TcpC to block TLR signaling and its NADase function are interrelated and that the TcpC EA mutant, which has been shown to have diminished NADase activity will not bind efficiently to MyD88. We performed in vitro translation assays to first produce both WT and EA mutant versions of TcpC that contain both a streptavidin and histidine tag. Then we conducted pull-down experiments to determine if the TcpC EA mutant could successfully bind to streptavidin beads, as well as MyD88, potentially resulting in clustering with the TIR signaling protein and blocking the signaling pathway entirely. While we have successfully produced tagged WT and EA TcpC proteins and pulled down the proteins using streptavidin beads, we are working to optimize conditions to determine if the NADase-deficient TcpC EA mutant is able to bind MyD88, as has been shown previously for WT TcpC. The resulting information will give us a closer look into TcpC’s effect on virulence and the suppression of the innate immune response via TLR and MyD88 related signaling pathways. This research was partially funded by the USM LSAMP program, supported by NSF LSAMP Award #1619676, the Towson OSPR Seed Funding for Grant Seekers, and the Bridges to Doctorate Scholars Program, NIH-R25GM119970 04.