P027 Involvement of PD-L1 in myenteric plexitis associated with postoperative recurrence of Crohn's disease

Abstract

Abstract Background Despite a growing therapeutic armamentarium, post-operative recurrence (POR) in Crohn’s disease (CD) remains frequent. The presence of myenteric plexitis at the proximal margin of ileocolonic resection has been recognized as a risk factor for early POR. They are defined by the accumulation of immune cells in contact with the ganglia of the myenteric plexus. In preliminary work, we have shown an increase in the number of T lymphocytes (TL) in contact with enteric glial cells (EGC) in patients with CD depending on ICAM-1/LFA-1 pathway. As CD is classically associated with a Th1 immune response, the aim of this work was to study the impact of EGC/CD4+ TL contacts on Th1-type cytokine production (IFNγ and its transcription factor Tbet) and to identify molecules that may be involved in these regulations. Methods In vitro in rats, the impact of EGC/CD4+ TL co-culture on IFNγ production was studied by ELISA and qPCR of the transcription factor Tbet. The expression and regulation of PD-L1, a candidate molecule, was then analyzed in murine and human EGC by qPCR and immunohisto/cytochemistry. Results While EGC alone produced only a small amount of IFNγ, there was a significant reduction in IFNγ production in EGC/CD4+ TL co-cultures compared with CD4+ TL alone. Yet the proportion of CD4+ TL cells capable of producing IFNγ was significantly increased in contact with EGC, as was their survival. In parallel, Tbet was downregulated in CD4+ TL in contact with EGC. These results suggested the involvement of PD-L1, a molecule known to negatively regulate cytokine production (notably IFNγ) and Tbet expression. Expression of PD-L1 mRNA and its protein was demonstrated in murine and human EGC and was upregulated under pro-inflammatory conditions. Analysis of transmural sections at the proximal margin of ileocolonic resection from patients (n=15 controls, n=14 CD without POR, n=15 CD with POR) showed PD-L1 expression in myenteric ganglia that was restricted to EGC (no neuronal expression) (Figure 1A). PD-L1 fluorescence intensity in myenteric ganglia at the proximal resection margin was significantly lower in CD patients with POR than in controls (∆13.5%; p=0.012) (Figure 1B). Conclusion Lower IFNγ production in EGC/CD4+ TL co-cultures associated with reduced Tbet expression by TL in contact with EGC suggest a role of PD-L1 in myenteric plexitis. PD-L1 expression has been demonstrated in murine and human EGC, with significantly lower expression in myenteric ganglia located at the proximal resection margin of CD patients with POR compared with controls. Blocking the ICAM-1/LFA-1 pathway and/or restoring the PD-1/PD-L1 loop could be of interest for developing strategies to prevent and/or treat POR in CD patients.