CD9 regulates macrophage-mediated remodeling of adipose tissue in obesity
Julia Chini, Nicole DeMarco, Dana V. Mitchell, Sam J. McCright, Kaitlyn M. Shen, Divyansi Pandey, Rachel L. Clement, Jessica Miller, Rajan Jain, Deanne M. Taylor, Mitchell A. Lazar, David A. Hill
Julia Chini, Nicole DeMarco, Dana V. Mitchell, Sam J. McCright, Kaitlyn M. Shen, Divyansi Pandey, Rachel L. Clement, Jessica Miller, Rajan Jain, Deanne M. Taylor, Mitchell A. Lazar, David A. Hill
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Research Article Immunology Metabolism

CD9 regulates macrophage-mediated remodeling of adipose tissue in obesity

Abstract

Dysfunctional white adipose tissue contributes to the development of obesity-related morbidities, including insulin resistance, dyslipidemia, and other metabolic disorders. Adipose tissue macrophages (ATMs) accumulate in obesity and play both beneficial and harmful roles in the maintenance of adipose tissue homeostasis and function. Despite their importance, the molecules and mechanisms that regulate these diverse functions are not well understood. Lipid-associated macrophages (LAMs), the dominant subset of obesity-associated ATMs, accumulate in crown-like structures and are characterized by a metabolically activated and proinflammatory phenotype. We previously identified CD9 as a surface marker of LAMs. However, the contribution of CD9 to the activation and function of LAMs during obesity is unknown. Using a myeloid-specific CD9-KO model, we show that CD9 supports ATM-adipocyte adhesion and crown-like structure formation. Furthermore, CD9 promotes the expression of profibrotic and extracellular matrix remodeling genes. Loss of myeloid CD9 reduces adipose tissue fibrosis, increases visceral adipose tissue accumulation, and improves global metabolic outcomes during diet-induced obesity. These results identify CD9 as a causal regulator of pathogenic LAM functions, highlighting CD9 as a potential therapeutic target for treating obesity-associated metabolic disease.

Authors

Julia Chini, Nicole DeMarco, Dana V. Mitchell, Sam J. McCright, Kaitlyn M. Shen, Divyansi Pandey, Rachel L. Clement, Jessica Miller, Rajan Jain, Deanne M. Taylor, Mitchell A. Lazar, David A. Hill

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Figure 2

CD9 promotes adipose tissue macrophage accumulation, crown-like structure formation, and adipocyte interactions.

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CD9 promotes adipose tissue macrophage accumulation, crown-like structur...
Analysis of epididymal white adipose tissue (eWAT) from control (Cd9fl/fl) and CD9-MKO (Cd9fl/fl LysMCre+/–) male mice fed an HFD for 12 weeks. (A) Representative images and quantification of immunofluorescence staining of F4/80 and DAPI in eWAT tissue sections. Data shown as relative MFI of F4/80 (n = 6–8) and number of F4/80+ DAPI+ cells per mm2 (n = 8). Scale bar: 200 μm. (B) Quantification by flow cytometry of adipose tissue macrophages (ATMs) from control and CD9-MKO HFD mice. Data are shown as frequency of total CD45+ immune cells (n = 15–16) and cells per gram of tissue (n = 13–16). (C) Representative high-resolution images of eWAT tissue sections from control and CD9-MKO HFD mice stained with DAPI (blue), PLIN1 (green), F4/80 (red), and CD9 (yellow) (n = 8). Scale bar: 50 μm. (D) F4/80+ crown-like structures (CLSs) per mm2 quantified from images from samples shown in A (n = 6–8). (E) 3D image reconstruction of PLIN1 (green), F4/80 (red), and CD9 (yellow) from control HFD mice (n = 8). Scale bar: 50 μm (left) or 20 μm (right). (F) Representative images of adipocyte fraction isolated from control HFD mice eWAT and stained for Hoechst (blue), BODIPY (green), F4/80 (red), and CD9 (yellow) (n = 3). Scale bar: 50 μm. (G and H) Relative expression of Adgre1 (F4/80), Cd68, Cd9, Trem2, and Spp1 (OPN) in stromal vascular fraction (n = 6–9; G) and adipocyte fraction (n = 6–9; H) isolated from eWAT. Data are from 2 (A, B, D, and E) or 3 (C, and FH) independent pooled experiments. Data presented as mean ± SEM (AC, G, and H). qPCR shown as ΔCt relative to a normalization factor relative to control HFD samples. Unpaired 2-tailed Student’s t test (AC, G, and H). ns, not significant; *P < 0.05, **P < 0.01, ***P < 0.001.