Dexamethasone/1α-25-dihydroxyvitamin D3-treated dendritic cells suppress colitis in the SCID T-cell transfer model

Abstract Background Inflammatory bowel disease (IBD) is a multifactorial disorder characterised by chronic and relapsing intestinal inflammation. Receptor-interacting protein 1 (RIP1) kinase activity is emerging as a driver of pro-inflammatory cytokine production and cell death and has been implicated in multiple inflammatory diseases including IBD. To this end, recent work has shown that RIP1 kinase inhibition reduces the spontaneous production of cytokines from human ulcerative colitis (UC) and Crohn’s disease explants. Methods The aim of this study was to investigate the anti-inflammatory effect of a highly selective inhibitor of RIP1 kinase activity (GSK547A) in the mouse T-cell transfer model of colitis; a model that shares many features with human IBD. All animal studies were ethically reviewed and carried out in accordance with Animals (Scientific Procedures) Act 1986 and the GSK Policy on the Care, Welfare and Treatment of Animals. Chronic colitis was achieved by transferring CD4+CD45RBhigh T cells into immunodeficient female SCID mice (6/8 weeks old). After confirming the development of pathology using endoscopy and MRI, animals were treated therapeutically with the RIP1 inhibitor GSK547A (50 mg/kg twice a day PO) or vehicle (0.5% hydroxypropyl methylcellulose in water). The severity of colitis was measured 5 weeks after cell transfer both macro- and microscopically. Mucosal damage by endoscopy was also assessed. RT-PCR and MSD analysis were performed to detect colon cytokine/chemokine and calprotectin levels. SAA in the plasma was measured using ELISA. Results We found that treatment with GSK547 significantly ameliorated experimental T-cell-dependent colitis in mice. GSK547A-treated mice displayed decreased weight loss, colon density (ratio weight/length), macroscopic disease activity index, colon thickness compared with vehicle-treated animals. Mucosal damage, assessed by endoscopy and histopathology, was also reduced following treatment with RIP1 kinase inhibitor. In addition, GSK547A reduced the expression of cytokines in the colon (TNF-α, IL-17A, INF-γ, IL-6 and MCP-1), both at a protein and RNA level. Relevant translational biomarkers such as SAA in plasma and RNA calprotectin in the colon were also decreased in the GSK547A treated group when compared with vehicle. Conclusion Our results suggest that RIP1K inhibition is a strong protective factor with anti-inflammatory potential in the progression of chronic colitis, when applied to the translationally relevant T-cell transfer model of colitis. These findings suggest the potential application in the management of inflammatory bowel disease and support the ongoing clinical program evaluating the effect of RIP1 kinase inhibition in UC patients.

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Carboxylesterase-1 assisted targeting of HDAC inhibitors to mononuclear myeloid cells in Inflammatory Bowel Disease

Journal of Crohn s and Colitis ◽

10.1093/ecco-jcc/jjab176 ◽

2021 ◽

Author(s):

Ahmed M I Elfiky ◽

Mohammed Ghiboub ◽

Andrew Y F Li Yim ◽

Ishtu L Hageman ◽

Jan Verhoeff ◽

...

Keyword(s):

Inflammatory Bowel Disease ◽

Dendritic Cells ◽

T Cell ◽

Human Blood ◽

Bowel Disease ◽

Cell Transfer ◽

Inflammatory Bowel ◽

Carboxylesterase 1 ◽

T Cell Transfer

Abstract Background and Aims Histone deacetylase inhibitors (HDACi) exert potent anti-inflammatory effects. Because of the ubiquitous expression of HDACs, clinical utility of HDACi is limited by off-target effects. Esterase-sensitive motif (ESM) technology aims to deliver ESM-conjugated compounds to human mononuclear myeloid cells, based on their expression of carboxylesterase 1 (CES1). This study aims to investigate utility of an ESM-tagged HDACi in inflammatory bowel disease (IBD). Methods CES1 expression was assessed in human blood, in vitro differentiated macrophage and dendritic cells and Crohn's disease (CD) colon mucosa by mass cytometry, quantitative PCR and immunofluorescence staining respectively. ESM-HDAC528 intracellular retention was evaluated by mass spectrometry. Clinical efficacy of ESM-HDAC528 was tested in DSS-induced colitis and T cell transfer colitis models using transgenic mice expressing human CES1 under the CD68 promotor. Results CES1 mRNA was highly expressed in human blood CD14 + monocytes, in vitro differentiated and LPS stimulated macrophages and dendritic cells. Specific hydrolysis and intracellular retention of ESM-HDAC528 in CES1 + cells was demonstrated. ESM-HDAC528 inhibited LPS-stimulated IL-6 and TNF-α production 1000 times more potently than its control, HDAC800, in CES1 high monocytes. In healthy donors peripheral blood, CES1 expression was significantly higher in CD14 ++CD16 - monocytes compared to CD14 +CD16 ++ monocytes. In CD inflamed colon, a higher number of mucosal CD68 + macrophages expressed CES1 compared to non-inflamed mucosa. In vivo, ESM-HDAC528 reduced monocyte differentiation in the colon and significantly improved colitis in a T cell transfer model, whilst having limited potential in ameliorating DSS-induced colitis. Conclusions We demonstrate that monocytes and inflammatory macrophages specifically express CES1, and can be preferentially targeted by ESM-HDAC528 to achieve therapeutic benefit in IBD.

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