P012 Intestinal epithelial cells as targets of thiopurines in Inflammatory Bowel Disease paediatric patients-derived organoids

Abstract

Abstract Background Thiopurines, azathioprine (AZA) and mercaptopurine (MP), are immunomodulators used to maintain remission in patients with inflammatory bowel disease (IBD). Intestinal epithelial cells play a key role in the pathogenesis of IBD, however, their role as target cells for thiopurines has not been elucidated. The aim of the project is to establish an in vitro IBD model using organoids starting from intestinal biopsies of IBD paediatric patients to investigate thiopurine effects on intestinal epithelium. Methods Forty-four IBD patients (mean age 14.4 years, 21 males) were enrolled. Intestinal biopsies were used to isolate crypts and generate adult stem cell-derived organoids. The cytotoxicity of thiopurines (0.2-200 µM for 72 hours) was evaluated by CellTiter-Glo 3D assay. Gene expression was evaluated using TaqMan assays. Thiopurine metabolites were quantified by LC-MS/MS analysis. Proteomic profiles were analyzed by Q-Exactive Plus mass spectrometer, western blot and REACTOME pathway software. Statistical analysis was performed using GraphPad and R software. Results IBD patients-derived organoids were sensitive to thiopurine treatment in a dose-dependent manner with a high interpatient variability (Two-way ANOVA p-value<0.0001; IC50 2.24 µM for AZA (95% CI: 1.28–5.53 µM) and 2.65 µM for MP (95% CI: 1.43–8.27 µM)).A significant negative correlation was observed between the viability after thiopurine exposure and mRNA expression of candidate genes involved in thiopurine pharmacokinetics (ITPA, TPMT, PACSIN2 and NUDT15). The most abundant thiopurine metabolite measured on organoids treated with IC50 of MP was MeTIMP, with a concentration correlated with cell viability after MP exposure (p=0.0056, ρ=-0.99). Proteomic analysis on organoids treated with IC20 of thiopurines (0.2 μM) showed 45 differentially expressed proteins in common between AZA and MP (p<0.05). REACTOME enrichment analysis revealed as the most altered pathways: vesicular traffic, autophagy, protein ubiquitination and interferon signalling, while no proteins related to apoptosis were induced. Among these proteins, TRIM32, a ubiquitin ligase involved in STING activity, a key regulator of both interferon I expression and NF-kB activation, resulted downregulated by the treatment (t-test AZA: p=0.0006; MP: p=0.014) and its basal levels negatively correlated with viability rates after thiopurine exposure (AZA: p=0.006, ρ=-0.85; MP: p=0.002, ρ=-0.88). Organoid exposure to thiopurines also decreased p-STING/STING ratio, particularly after MP treatment (t-test p=0.025), and increased autophagy, assessed as LC3-II levels (t-test AZA: p=0.0006; MP: p=0.014). Conclusion Organoid cultures provide new insights on the mechanism of action of thiopurines in the intestinal epithelium.