TRAM/TICAM-2 is used by Toll-like receptor 4 (TLR4) as a bridging adaptor during the mammalian innate immune response. It recruits TRIF, another TIR domain-containing adaptor protein, to TLR4 via TIR domain interactions, which leads to the activation of transcription factors responsible for the production of type-1 interferon and cytokines. The molecular mechanisms of these dual interactions mediated by the TRAM TIR domain are not clear. To understand the molecular basis of TIR:TIR domain interactions, structural and biochemical studies of TRAM TIR domain are necessary, and require a functional soluble protein. In this paper, we report a successful purification and characterization of full-length TRAM. Because full-length TRAM likely contains unstructured regions that may be disadvantageous for structural studies, we also carried out a systematic construct design to determine the boundaries of the TRAM TIR domain. The truncated TRAM constructs were designed based on secondary structure predictions and screened by small-scale expression. Selected constructs were subjected to biophysical analyses. We show that the expressed TRAM TIR domain is functional using in vitro GST pull-down assays that demonstrate a physical interaction with the TLR4 TIR domain. We further show, by site-directed mutagenesis, that the "BB loop" regions of both the TRAM TIR domain and the TLR4 TIR domain are crucial for this physical interaction.
Keywords: GST pull-down assays; Innate immunity; Protein expression; Protein purification; Systematic construct design; Toll-like receptor adaptor protein.
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