Onse via interaction with STING (Burdette et al., 2011; Jin et al., 2011; Sauer et al., 2011). Nlrc3-/- MEFs made extra IFN- and IL-6 proteins in response to transfected c-di-GMP (Figure 2A ). On top of that, Nlrc3-/- MEFs created elevated IFN-I and IL-6 in response to infection with c-di-GMP creating L. monocytogenes (Figure 2C ). Increased IFN was also observed in Nlrc3-/- cells infected with a different c-di-GMP making bacteria, B. thaildensis (Figure 2F). As a result Nlrc3-deficiency results in increased innate immune response to cytoplasmic DNA, c-di-GMP, and bacteria that produce c-di-GMP. NLRC3 inhibits the STING-dependent pathway Cytoplasmic DNA and c-di-GMP induce IFN-I by means of the STING molecule, which led us to examine both functional and molecular interactions in between NLRC3 and STING (Burdette et al., 2011; Huang et al., 2012; Ouyang et al., 2012; Shang et al., 2012; Shu et al., 2012). To investigate if NLRC3 impacts the STING pathway, we examined the influence of NLRC3 on the activation of IFN- promoter-luciferase by STING. This reporter assay was internally controlled by the co-transfection of a Renilla luciferase construct. NLRC3 inhibited IFN- promoter activation by STING by 9.72 fold. STING operates by interaction and activation of its downstream kinase, TBK1 (Tanaka and Chen, 2012). NLRC3 drastically lowered IFN- promoter activation by TBK1. Having said that NLRC3 had no direct effect around the downstream interferon regulatory transcription issue 3 (IRF3), indicating that NLRC3 probably functions at the upstream STING-TBK level (Figure 3A). As a specificity handle, another NLR, NLRP11, didn’t reduce IFN- promoter activation by TBK1 (Figure 3B). NLRC3 also inhibited a second promoter driven by the canonical interferon-stimulated responsive element (ISRE), that is known to become activated by STING and TBK1 (Ishikawa and Barber, 2008; Zhong et al., 2008) (Figure 3C). Nevertheless NLRC3 had no impact on the activation on the ISRE promoter by mitochondrial antiviral signaling protein (MAVS) (also known as interferon-beta promoter stimulator 1 (IPS-1), virus-induced signaling adapter (VISA) and CARD adaptor inducing IFN- (CaSR Formulation CARDIF)), that is vital for RNA sensing, nor did it affect promoter activation by the downstream IRF3 (Figure 3C). Furthermore, NLRC3 inhibited NF-B promoter activated by STING, and decreased MAVS activation slightly but didn’t influence retinoic acid-inducible gene 1 (RIG-I)(Figure 3D). We also observed that NLRC3 inhibited c-di-GMP and poly(dA:dT)-induced ISRE activation (Figure 3E). These experiments indicate that the predominant effect of NLRC3 is on the STING pathway. As an added specificity handle for NLR proteins, overexpression of NLRC5, which has been reported to inhibit different innate immune pathways when tested in an overexpression program (Cui et al., 2010) didn’t inhibit STING or TBK1-induced ISRE activation (Figure 3F). These experiments MMP-10 MedChemExpress suggest that NLRC3 down-regulates innate immunity triggered by STING and TBK1.Immunity. Author manuscript; obtainable in PMC 2015 March 20.Zhang et al.PageNLRC3 associates with STING and TBK1 and alters the STING-TBK1 interaction right after stimulationNIH-PA Author Manuscript NIH-PA Author Manuscript NIH-PA Author ManuscriptTo explore the mechanism by which NLRC3 interferes with STING and TBK1 function, we tested if NLRC3 interacts with STING and/or TBK1. Transient transfection and co-immunoprecipitation followed by immunoblot showed that HA-NLRC3 strongly related with Flag-STIN.