Abstract

Abstract The immune microenvironment plays a critical role in the efficacy of cancer treatment. The manipulation of cytosolic nucleic acid sensors has become a strategy to boost the immune response in cancer therapy, but it is critical to understand how these nucleic acid sensors work in the tumor microenvironment. One aspect of the immune microenvironment is the nucleic acid sensor, which recognizes pathogenic nucleic acids and activates an immune response. Retinoic acid-inducible gene I (RIG-I) is an RNA sensor that responds to dsRNA by activating a type I interferon response. It has been found that RIG-I activation can induce an anti-tumor immune response, but its role in the tumor microenvironment is unknown. Prior studies show regulation of the innate immune response in endothelium can increase the anti-tumor response. Understanding the role of RIG-I in endothelial cells, and how this can be used to potentially reprogram the tumor microenvironment, is critical for developing more effective cancer treatments. In addition, my research on the effects of RIG-I in endothelium has wide-reaching implications beyond cancer treatment. I hypothesize RIG-I activation in endothelial cells will produce an anti-tumor immune response. My findings show that endothelial RIG-I activates a robust type I interferon response and inhibits EC function including, inducing apoptosis and inhibiting migration, which is indicative that RIG-I plays a role in the endothelial immune response. RIG-I also plays a role in the expression of the several angiogenic regulators in a tissue-specific manner. This research will provide critical knowledge about the role of RIG-I in tumor angiogenesis, and provide novel treatment avenues for solid tumors. Supported by grants from NIH (T32) and Knight (CVP-002)

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