Identification of novel cis -acting elements, E-box and ISRE, regulating IFNγ-IRF1 axis-mediated NLRC5 expression

NLRC5 and CIITA are the primary transcriptional regulators of MHC class I and MHC class II, respectively, and play essential roles in adaptive immunity. While the regulatory mechanisms of CIITA have been extensively characterized, the transcriptional control of NLRC5 remains incompletely understood. In this study, we identified two novel conserved cis -regulatory elements within the NLRC5 promoter, an E-box and an ISRE. Furthermore, we revealed IRF1 as a novel transcriptional regulator of NLRC5, binding directly to the ISRE within the NLRC5 promoter. Using the newly identified NLRC5 ISRE, we established a screening platform to identify modulators of the IFNγ-IRF1-NLRC5 axis. This system corroborated the inhibitory effects of known viral antagonists and led to the identification of novel SARS-CoV-2 viral factors that suppress IFNγ- mediated IRF1 nuclear translocation, thereby inhibiting the MHC class I pathway. By elucidating the previously unproven molecular mechanism underlying IFNγ-mediated NLRC5 regulation, our study provides critical insights into viral immune evasion strategies and the modulation of antigen presentation. These findings may facilitate the development of MHC class I-targeted therapeutics by modulating the IRF1-NLRC5 axis.