Farnesoid X receptor mediates macrophage-intrinsic responses to suppress colitis-induced colon cancer progression
Xingchen Dong, Ming Qi, Chunmiao Cai, Yu Zhu, Yuwenbin Li, Sally Coulter, Fei Sun, Christopher Liddle, Nataliya V. Uboha, Richard Halberg, Wei Xu, Paul Marker, Ting Fu
Xingchen Dong, Ming Qi, Chunmiao Cai, Yu Zhu, Yuwenbin Li, Sally Coulter, Fei Sun, Christopher Liddle, Nataliya V. Uboha, Richard Halberg, Wei Xu, Paul Marker, Ting Fu
View: Text | PDF
Research Article Endocrinology Gastroenterology

Farnesoid X receptor mediates macrophage-intrinsic responses to suppress colitis-induced colon cancer progression

Abstract

Bile acids (BAs) affect the intestinal environment by ensuring barrier integrity, maintaining microbiota balance, regulating epithelium turnover, and modulating the immune system. As a master regulator of BA homeostasis, farnesoid X receptor (FXR) is severely compromised in patients with inflammatory bowel disease (IBD) and colitis-associated colorectal cancer (CAC). At the front line, gut macrophages react to the microbiota and metabolites that breach the epithelium. We aim to study the role of the BA/FXR axis in macrophages. This study demonstrates that inflammation-induced epithelial abnormalities compromised FXR signaling and altered BAs’ profile in a mouse CAC model. Further, gut macrophage–intrinsic FXR sensed aberrant BAs, leading to pro-inflammatory cytokines’ secretion, which promoted intestinal stem cell proliferation. Mechanistically, activation of FXR ameliorated intestinal inflammation and inhibited colitis-associated tumor growth, by regulating gut macrophages’ recruitment, polarization, and crosstalk with Th17 cells. However, deletion of FXR in bone marrow or gut macrophages escalated the intestinal inflammation. In summary, our study reveals a distinctive regulatory role of FXR in gut macrophages, suggesting its potential as a therapeutic target for addressing IBD and CAC.

Authors

Xingchen Dong, Ming Qi, Chunmiao Cai, Yu Zhu, Yuwenbin Li, Sally Coulter, Fei Sun, Christopher Liddle, Nataliya V. Uboha, Richard Halberg, Wei Xu, Paul Marker, Ting Fu

×

Figure 7

FXR mediates macrophage-tailored intestinal immune responses and homeostasis.

Options: View larger image (or click on image) Download as PowerPoint
FXR mediates macrophage-tailored intestinal immune responses and homeost...
(A) The scheme of FexD early intervention in WT mice under AOM/DSS regimen or dH2O as control. After second cycle of DSS, mice were treated with FexD (50 mg/kg BW/d orally) for 4–5 weeks, with corn oil as vehicle control. (BE) Representative flow cytometry analyses of small intestinal lamina propria cells: CD11bhiF4/80+, CD11bloF4/80+, and CD11b+F4/80+ total macrophages; IL23+ macrophages; and MHCIIhiCD206+, MHCIIloCD206+, CD11bhiCX3CR1hi, CD11bloCX3CR1lo, CD68loCD64+, and CD68hiCD64+ macrophages (B). Data quantification presented (CE). (F) Expression of M1-like and M2-like macrophage gene markers, measured by qRT-PCR. (G) Expression of macrophage surface markers like F4/80 (Adgre1 gene), antigen-presenting proteins such as MHCII (H2ab1 gene), IL23 receptor on CD4+ T cells (IL23r gene), and T cell recruitment chemokine genes (Cx3cl1, Cxcl2, and Cxcl16), measured by qRT-PCR. (H) Correlation between gene expression of FXR and gut macrophage markers (IL23a, IL1β, Cd11b, Csf1r, Cd64, Cd68) in an RNA-Seq database of sorted gut macrophages from B6 mice treated with 1.5% DSS with dH2O as a control. Rpkm, reads per kilobase million. n = 3–5/group. Experiments were independently replicated twice, and representative data are shown as the mean ± SEM. P values are computed with Student’s unpaired t test and 1-way ANOVA test followed by Tukey multiple comparisons. *DSS versus dH2O or drugs versus control, #FexD versus vehicle in AOM/DSS cohort; *, #P < 0.05; **, ##P < 0.01; ***, ###P < 0.005; ****P < 0.001.