Frontiers in Immunology (Mar 2022)

BET Protein Inhibition Regulates Macrophage Chromatin Accessibility and Microbiota-Dependent Colitis

  • Michelle Hoffner O’Connor,
  • Michelle Hoffner O’Connor,
  • Ana Berglind,
  • Ana Berglind,
  • Meaghan M. Kennedy Ng,
  • Meaghan M. Kennedy Ng,
  • Benjamin P. Keith,
  • Benjamin P. Keith,
  • Zachary J. Lynch,
  • Matthew R. Schaner,
  • Erin C. Steinbach,
  • Erin C. Steinbach,
  • Jeremy Herzog,
  • Omar K. Trad,
  • William R. Jeck,
  • Janelle C. Arthur,
  • Janelle C. Arthur,
  • Janelle C. Arthur,
  • Jeremy M. Simon,
  • Jeremy M. Simon,
  • Jeremy M. Simon,
  • Jeremy M. Simon,
  • R. Balfour Sartor,
  • Terrence S. Furey,
  • Terrence S. Furey,
  • Terrence S. Furey,
  • Shehzad Z. Sheikh,
  • Shehzad Z. Sheikh

DOI
https://doi.org/10.3389/fimmu.2022.856966
Journal volume & issue
Vol. 13

Abstract

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IntroductionIn colitis, macrophage functionality is altered compared to normal homeostatic conditions. Loss of IL-10 signaling results in an inappropriate chronic inflammatory response to bacterial stimulation. It remains unknown if inhibition of bromodomain and extra-terminal domain (BET) proteins alters usage of DNA regulatory elements responsible for driving inflammatory gene expression. We determined if the BET inhibitor, (+)-JQ1, could suppress inflammatory activation of macrophages in Il10-/- mice.MethodsWe performed ATAC-seq and RNA-seq on Il10-/- bone marrow-derived macrophages (BMDMs) cultured in the presence and absence of lipopolysaccharide (LPS) with and without treatment with (+)-JQ1 and evaluated changes in chromatin accessibility and gene expression. Germ-free Il10-/- mice were treated with (+)-JQ1, colonized with fecal slurries and underwent histological and molecular evaluation 14-days post colonization.ResultsTreatment with (+)-JQ1 suppressed LPS-induced changes in chromatin at distal regulatory elements associated with inflammatory genes, particularly in regions that contain motifs for AP-1 and IRF transcription factors. This resulted in attenuation of inflammatory gene expression. Treatment with (+)-JQ1 in vivo resulted in a mild reduction in colitis severity as compared with vehicle-treated mice.ConclusionWe identified the mechanism of action associated with a new class of compounds that may mitigate aberrant macrophage responses to bacteria in colitis.

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