P086 Identification of a Novel Immunometabolic Target and Agonist for PLXDC2 for Amelioration of DSS Colitis Model in Mice

• Published in: Journal of Crohn's and colitis Vol. 18; no. Supplement_1; pp. i361 - i362
• Main Authors: Abdurahiman, S, Mosig, R, Cataldi, F, Vermeire, S, Verstockt, B
• Format: Journal Article
• Language: English
• Published: 24.01.2024
• ISSN: 1873-9946; 1876-4479
• DOI: 10.1093/ecco-jcc/jjad212.0216

Abstract Background PLXDC2 is expressed on the cell surface of macrophage, dendritic and specific mesenchymal and epithelial cells whose activation shifts cellular metabolism and reduces oxidative stress to rebalance the immune response and decrease inflammation. It’s role in IBD pathogenesis is unknown. PLXDC2 activation improves disease severity in rheumatoid arthritis models1, while loss of PLXDC2 exacerbates the severity of disease in DSS colitis2. PX-04 is a novel, first-in-class, orally active PLXDC2 agonist. Here, we report on the consequences of activating PLXDC2 using PX-04 in an acute DSS colitis model. Methods Mice were given DSS in drinking water for seven days to induce disruption of the epithelial layer. At project initiation, mice were 8 weeks of age and began once daily dosing with 20mg/kg of PX-04 24 hours after being placed on DSS. Mice were weighed and scored daily for 15 symptoms of disease (weight loss, diarrhea, rectal bleeding, rectal inflammation, pain, & overall behavior). Colons were collected and digested, and the resultant cellular suspensions were filtered to produce single cell suspensions. Colonic Lamina Propria Immune cells were isolated by Percoll gradient centrifugation. Cells were labeled with mixtures of extracellular (CD45, CD3, CD4, CD8, CD19, NK1.1, CD25, F4/80, CD11b, Gr1, CX3CR1, CD64) and intracellular (Tbet, RORγT, FOXP3, IFNγ, IL17, IL10, TNFα) antibodies in a sequential live staining in 96-well plates. Data was acquired using a FACS Celesta flow cytometer with FACSDiva software. Results Oral PX-04 treatment decreased the cumulative disease activity of mice challenged with DSS (FIG 1A). Immunologically, PX-04 affected both the adaptive and innate immune responses. First, PX-04 greatly decreased Th17 cells in the colon, while providing a slight increase to regulatory CD4+ T cells (FIG. 1C). A lower proportion of Natural Killer (NK) cells (FIG. 7D) produced IFNγ. Meanwhile, the proportion of TNF producing dendritic cells was decreased by PX-04 treatment. Conclusion Conclusion: PLXDC2 is expressed in cells relevant to IBD pathogenesis. PX-04, which binds to and activates PLXDC2, effectively decreases levels of effector T cells and myeloid cells, as well as overall disease severity in acute DSS colitis, warranting further investigation. 1Tubau-Juni et al. J Immunol 206(Supp) 2Tubau-Juni et al. Sci Rep 10(1)