The role of ST8Sia6 in braking inflammation in Inflammatory Bowel Disease

Abstract

Abstract Inflammatory bowel disease (IBD) including ulcerative colitis (UC) and Crohn’s disease (CD) affects between 1–3 million people in the United States and costs an estimated $11–28 billion in national healthcare costs. Patients present with symptoms including diarrhea, rectal bleeding, and fatigue. Characterization of molecules that regulate IBD is critical in understanding pathogenesis. ST8Sia6 is a sialic acid transferase that adds terminal a2,8 disialic acids to cell surface glycoproteins, and we have found that ST8Sia6 knockout (KO) mice exhibit increased spontaneous small bowel (SB) lamina propria CD4 T H1 polarization, increased inflammatory cytokine production, decreased IgA class switching of SB plasma cells, and alterations of the SB innate lymphoid cells, indicative of gut inflammation. Moreover, adult ST8Sia6 KO mice have shortened small and large bowels, likely due to baseline inflammation. These mice do not exhibit overt baseline symptoms, but ST8Sia6 KO mice exhibit increased weight loss and decreased survival when challenged with dextran sodium sulfate (DSS)-induced colitis, which was also enhanced when co-housed with wildtype (WT) mice. DSS-challenged ST8Sia6 KO mice exhibit increased histological damage and immune infiltration of the gut as compared to WT controls. Accelerated DSS-induced colitis is also observed when ST8Sia6-deficient bone marrow is transplanted into WT recipients, indicating that the effect is mediated specifically by immune cells. This data demonstrates a role for ST8Sia6 in regulating the host immune response to IBD, and further elucidating this role will aid in developing a mechanistic understanding of IBD pathogenesis and in understanding potential immunotherapies for the disease. R01CA243545, 5T32DK124190-03