Acute high-fat diet impairs macrophage-supported intestinal damage resolution
Andrea A. Hill, Myunghoo Kim, Daniel F. Zegarra-Ruiz, Lin-Chun Chang, Kendra Norwood, Adrien Assié, Wan-Jung H. Wu, Michael C. Renfroe, Hyo Wong Song, Angela M. Major, Buck S. Samuel, Joseph M. Hyser, Randy S. Longman, Gretchen E. Diehl
Andrea A. Hill, Myunghoo Kim, Daniel F. Zegarra-Ruiz, Lin-Chun Chang, Kendra Norwood, Adrien Assié, Wan-Jung H. Wu, Michael C. Renfroe, Hyo Wong Song, Angela M. Major, Buck S. Samuel, Joseph M. Hyser, Randy S. Longman, Gretchen E. Diehl
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Research Article Immunology

Acute high-fat diet impairs macrophage-supported intestinal damage resolution

Abstract

Chronic exposure to high-fat diets (HFD) worsens intestinal disease pathology, but acute effects of HFD in tissue damage remain unclear. Here, we used short-term HFD feeding in a model of intestinal injury and found sustained damage with increased cecal dead neutrophil accumulation, along with dietary lipid accumulation. Neutrophil depletion rescued enhanced pathology. Macrophages from HFD-treated mice showed reduced capacity to engulf dead neutrophils. Macrophage clearance of dead neutrophils activates critical barrier repair and antiinflammatory pathways, including IL-10, which was lost after acute HFD feeding and intestinal injury. IL-10 overexpression restored intestinal repair after HFD feeding and intestinal injury. Macrophage exposure to lipids from the HFD prevented tethering and uptake of apoptotic cells and Il10 induction. Milk fat globule-EGF factor 8 (MFGE8) is a bridging molecule that facilitates macrophage uptake of dead cells. MFGE8 also facilitates lipid uptake, and we demonstrate that dietary lipids interfere with MFGE8-mediated macrophage apoptotic neutrophil uptake and subsequent Il10 production. Our findings demonstrate that HFD promotes intestinal pathology by interfering with macrophage clearance of dead neutrophils, leading to unresolved tissue damage.

Authors

Andrea A. Hill, Myunghoo Kim, Daniel F. Zegarra-Ruiz, Lin-Chun Chang, Kendra Norwood, Adrien Assié, Wan-Jung H. Wu, Michael C. Renfroe, Hyo Wong Song, Angela M. Major, Buck S. Samuel, Joseph M. Hyser, Randy S. Longman, Gretchen E. Diehl

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Figure 8

Lost Il10 expression after HFD feeding and DSS treatment.

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Lost Il10 expression after HFD feeding and DSS treatment. (A and B) Il10...
(A and B) Il10 gene expression from cecum (n = 4 LFD and HFD, n = 5 LFD DSS and HFD DSS) (A) and intestinal (B) CX3CR1+ macrophages from LFD- and HFD-fed DSS-treated mice (n = 4 samples/group). (C) Il10 gene expression in control (Ctrl), oleic acid (OA), or palmitic acid (PA) pretreated macrophages after exposure to dead neutrophils (2 pooled experiment with n = 4 technical replicates/group). (D) Body weight change in HFD-fed DSS-treated mice after hydrodynamic delivery of control or IL-10–producing plasmid (n = 6 control and n = 9 IL-10 mice/group). (EL) measurements in cecum of mice in D (n = 6 mice per group). (E and F) Representative H&E staining and blinded colitis score. (G and H) Representative staining and quantification of Ki67+ proliferating cells. (I and J) Occludin (Ocln) and Zo1 (Tjp1) expression. (K and L) Representative Alcian blue/PAS staining and quantification of goblet cells. For all imaging, the average of 3 HPF images was taken per mouse. Data are presented as mean ± SEM. *P < 0.05, **P < 0.01,***P < 0.001, ****P < 0.0001. Statistical comparisons were performed using Student’s t test (B, D, F, H–J, and L) and 1-way ANOVA with Tukey’s post hoc test (A and C), and if not indicated, a comparison is not significant. Scale bar: 100 μm.