P108 Response to vedolizumab in ulcerative colitis is associated with reduced neutrophil extracellular traps formation and IL-1β production: insights from NEUTROVED study

Abstract

Abstract Background Vedolizumab (VDZ) is a humanized mAb against integrin α4β7. VDZ inhibits gut inflammation by impeding intestinal T-cell homing, however, recent data suggest that effects of α4β7 blocking extend beyond T-cells to alterations in innate immunity. Neutrophils are key components of innate immune response and inflammation in ulcerative colitis (UC). Studies have provided evidence linking neutrophils with UC pathogenesis, through autophagy induction and production of IL-1β-enriched neutrophil extracellular traps (NETs). NEUTROVED aimed to investigate the effects of VDZ treatment on neutrophils that may be associated with clinical and endoscopic response. Methods Patients with moderate-to-severe UC who received VDZ in standard medical care were evaluated in two timepoints, 24 hours before treatment initiation (T1) and at week 14 of treatment (T2). Clinical/endoscopic scores and common laboratory indexes were evaluated. In parallel, RNA-sequencing in peripheral neutrophils was performed, and markers of NETs in plasma and intestinal biopsies were assessed. Results In total 5 patients completed the study until today (Table 1). In T2, 4 patients demonstrated complete remission, and one patient had mild disease. No adverse events were recorded. RNA-sequencing analysis of paired samples revealed 248 significantly downregulated and 109 upregulated genes in peripheral neutrophils after VDZ treatment. Bioinformatics analysis using the GeneCodis4 web-based tool revealed that downregulated DEGs clustered mainly in immune-related pathways, including neutrophil degranulation, Toll-like receptor cascades, signaling by interleukins, NETs formation, and HIF-1 signaling pathway, while upregulated DEGs were involved in RNA metabolism-related processes, and the ribosome biogenesis pathway. A comparative analysis between these differentially expressed genes (DEGs) and our previous RNA-sequencing data of peripheral neutrophils isolated from active UC patients (n=24) highlighted a set of 168 DEGs as restored targets after VDZ therapy. Of note, several unique genes implicated in neutrophil activation, including IL-1 signaling components, were found significantly downregulated after VDZ therapy. In line with the abovementioned transcriptome alterations, markers of NETs and IL1β-bearing NETs in plasma and colonic tissue were significantly reduced, recapitalizing clinical and endoscopic response to VDZ. Conclusion Response to VDZ treatment in UC is related to anti-inflammatory actions on neutrophils characterized by reduced NETosis and IL-1β production through NETs. Further mechanistic studies investigating the possible effects of VDZ on innate immunity and neutrophil-mediated responses are warranted.