Runx3 prevents spontaneous colitis by directing differentiation of anti-inflammatory mononuclear phagocytes [article]

Shay hantisteanu, Yosef Dicken, Varda Negreanu, Dalia Goldenberg, Ori Brenner, Dena Leshkowitz, Joseph Lotem, Ditsa Levanon, Yoram Groner
2019 bioRxiv   pre-print
RUNX3 is one of three mammalian Runt-domain transcription factors (TFs) that regulate gene expression in several types of immune cells. Runx3-deficiency in mice is associated with a multitude of defects in the adaptive and innate immunity systems, including the development of early onset colitis. Our study reveals that conditional deletion of Runx3 specifically in mononuclear phagocytes (MNP) (MNPRunx3-/-) but not in T cells, recapitulates the early onset spontaneous colitis seen in Runx3-/-
more » ... e. We show that Runx3 is expressed in colonic MNP, including resident macrophages (RM) and the dendritic cell cDC2 subsets and its loss results in impaired differentiation/maturation of both cell types. At the transcriptome level, loss of Runx3 in RM and cDC2 was associated with upregulation of pro-inflammatory genes similar to those in the early onset IBD murine model of RMIl10r-/-. The impaired RM maturation in the absence of Runx3 was associated with a marked decrease in expression of anti-inflammatory and TGFlower case Greek beta-regulated genes. Similarly, the decreased expression of lower case Greek beta-catenin signaling associated genes in Runx3-deficient cDC2 indicates their impaired differentiation/maturation. Analysis of ChIP-seq data suggests that in both MNP cell types a significant fraction of these differentially expressed genes are high confidence Runx3 directly regulated genes. Interestingly, several of these putative Runx3 target genes harbor SNPs associated with IBD susceptibility in humans. Remarkably, the impaired maturation and pro-inflammatory phenotype of MNP lacking Runx3 was associated with a substantial reduction in the prevalence of colonic lamina propria Foxp3+ regulatory T cells and an increase in IFN lower case Greek gamma-producing CD4+ T cells, underscoring Runx3 critical role in establishing tolerogenic MNP. Together, these data emphasize the dual role of Runx3 in colonic MNP, as a transcriptional repressor of pro-inflammatory genes and an activator of maturation-associated genes including anti-inflammatory genes. Our study highlights the significance of the current MNPRunx3-/- model for understanding of human MNP-associated colitis. It provides new insights into the crucial involvement of Runx3 in intestinal immune tolerance by regulating colonic MNP maturation through TGFlower case Greek betaR signaling and anti-inflammatory functions by IL10R signaling, befitting the identification of RUNX3 as a genome-wide associated risk gene for various immune-related diseases in humans including gastrointestinal tract diseases such as celiac and Crohn disease.
doi:10.1101/742650 fatcat:z4tf2p2dhraofk52dqadnltsnq