M2-like macrophages polarized by Foxp3− Treg-of-B cells ameliorate imiquimod-induced psoriasis

Our group have demonstrated that splenic B cells contributed to the CD4⁺CD25⁻ naive T cells conversion into CD4⁺CD25⁺Foxp3⁻ regulatory T cells without adding appended cytokines, named Treg-of-B cells which were potent suppressors of adaptive immunity. We like to investigate whether Treg-of-B cells could promote alternatively activated macrophage (M2 macrophages) polarization and alleviate inflammatory disease, psoriasis. In this study, we co-cultured the bone marrow-derived macrophages (BMDMs) with Treg-of-B cells under LPS/IFN-γ stimulation and analyzed the M2-associated gene and protein using qPCR, western blotting, and immunofluorescence staining. We also examined the therapeutic effect of Treg-of-B cell-induced M2 macrophage for skin inflammation using imiquimod (IMQ)-induced psoriatic mouse model. Our results showed that BMDMs co-cultured with Treg-of-B cells upregulated typical M2-associated molecules, including Arg-1, IL-10, Pdcd1lg2, MGL-1, IL-4, YM1/2 and CD206. In an inflammatory environment, TNF-α and IL-6 production by macrophages co-cultured with Treg-of-B cells was decreased significantly. The molecular mechanism revealed that Treg-of-B cells promoted M2 macrophage polarization via STAT6 activation in a cell contact-dependent manner. Moreover, the treatment with Treg-of-B cell-induced M2 macrophages attenuated the clinical manifestations of psoriasis, such as scaling, erythema and thickening in the IMQ-induced psoriatic mouse model. T cell activation in draining lymph nodes was decreased in the Treg-of-B cell-induced M2 macrophage group after IMQ application. In conclusion, our findings suggested that Foxp3⁻ Treg-of-B cells could induce alternatively activated M2 macrophages through STAT6 activation, providing a cell-based therapeutic strategy for psoriasis.     

Antibodies to MHC Class II Molecules Induce Autoimmunity: Critical Role for Macrophages in the Immunopathogenesis of Obliterative Airway Disease

Previous studies have shown that intrabronchial administration of antibodies (Abs) to MHC class I resulted in development of obliterative airway disease (OAD), a correlate of chronic human lung allograft rejection. Since development of Abs specific to mismatched donor HLA class II have also been associated with chronic human lung allograft rejection, we analyzed the role of Abs to MHC class II in inducing OAD. Administration of MHC class II Abs (M5/114) to C57BL/6 mice induced the classical features of OAD even though MHC class II expression is absent de novo on murine lung epithelial and endothelial cells. The induction of OAD was accompanied by enhanced cellular and humoral immune responses to self-antigens (Collagen V and K- α1Tubulin). Further, lung-infiltrating macrophages demonstrated a switch in their phenotype predominance from MΦ1 (F4/80⁺CD11c⁺) to MΦ2 (F4/80⁺CD206⁺) following administration of Abs and prior to development of OAD. Passive administration of macrophages harvested from animals with OAD but not from naïve animals induced OAD lesions. We conclude that MHC class II Abs induces a phenotype switch of lung infiltrating macrophages from MΦ1 (F4/80⁺CD11c⁺) to MΦ2 (F4/80⁺CD206⁺) resulting in the breakdown of self-tolerance along with an increase in autoimmune Th17 response leading to OAD.     

Enrichment of Murine CD68+CCR2+ and CD68+CD206+ Lung Macrophages in Acute Pancreatitis-Associated Acute Lung Injury

Acute lung injury (ALI) is an important cause of mortality in critically ill patients. Acute pancreatitis (AP) is one of the risk factors for developing this syndrome. Among the inflammatory cells, macrophages have a key role in determining the severity of the acute lung injury. In the lungs, macrophages constitute a heterogeneous cell population distributed in different compartments. Changes in not only the macrophage count, but also in their phenotype have been seen during the course of lung injury. A murine ductal ligation model of acute pancreatitis showed substantial morphological changes in the pancreas and lungs. Immunohistochemistry showed neutrophil recruitment into both organs after 9 hours and later on. F4/80⁺ cells in the pancreas increased in the ligated animals, though there was not a significant difference in their number in the lungs as compared to sham operated animals. Flow cytometry analysis of lung macrophages demonstrated an enrichment of F4/80⁻ CD68⁺CCR2⁺ and F4/80⁻ CD68⁺CD206⁺ lung macrophages in ligated animals (AP) as compared to the sham operated group. The level of interleukin-6 in plasma increased 3 hours after ligation compared to the sham operated group, as a first indicator of a systemic inflammatory response.This study suggests a role for F4/80⁻ CD68⁺ macrophages in the pathogenesis of acute lung injury in acute pancreatitis. Studying lung macrophages for different phenotypic markers, their polarization, activation and recruitment, in the context of acute lung injury, is a novel area to potentially identify interventions which may improve the outcome of acute lung injury.     

Overexpression of IL-10 in C2D Macrophages Promotes a Macrophage Phenotypic Switch in Adipose Tissue Environments

Adipose tissue macrophages are a heterogeneous collection of classically activated (M1) and alternatively activated (M2) macrophages. Interleukin 10 (IL-10) is an anti-inflammatory cytokine, secreted by a variety of cell types including M2 macrophages. We generated a macrophage cell line stably overexpressing IL-10 (C2D-IL10) and analyzed the C2D-IL10 cells for several macrophage markers after exposure to adipocytes compared to C2D cells transfected with an empty vector (C2D-vector). C2D-IL10 macrophage cells expressed more CD206 when co-cultured with adipocytes than C2D-vector cells; while the co-cultured cell mixture also expressed higher levels of Il4, Il10, Il1β and Tnf. Since regular C2D cells traffic to adipose tissue after adoptive transfer, we explored the impact of constitutive IL-10 expression on C2D-IL10 macrophages in adipose tissue in vivo. Adipose tissue-isolated C2D-IL10 cells increased the percentage of CD206⁺, CD301⁺, CD11c⁻CD206⁺ (M2) and CD11c⁺CD206⁺ (M1b) on their cell surface, compared to isolated C2D-vector cells. These data suggest that the expression of IL-10 remains stable, alters the C2D-IL10 macrophage cell surface phenotype and may play a role in regulating macrophage interactions with the adipose tissue.     

Characteristics and clinical significance of CD163+/CD206+M2 mono-macrophage in the bladder cancer microenvironment

The tumor microenvironment may recruit monocytes, with a protumoral macrophage phenotype (M2) that plays an important role in solid tumor progression and metastasis. Therefore, it is necessary to understand the characteristics of these cells for cancer prevention and treatment. Bladder cancer tissue samples and paracarcinoma tissues samples were collected, and the expression of CD163⁺ cells in tumor tissues was observed. Then, we observed the expression of infiltrating CD45⁺CD14⁺CD163⁺ cell subset and analyzed the molecular expressions related to immunity and angiogenesis. C57/BL6 mice were inoculated subcutaneously, and dynamic changes of CD11b⁺F4/80⁺CD206⁺ mononuclear macrophages expression for tumor-bearing mice were detected. The results showed that the proportion of CD45⁺CD14⁺CD163⁺ mono-macrophage subset infiltrated by tumor tissue was significantly higher than that in paracarcinoma tissues. In bladder cancer tissue, the expression rate of CD40 in CD45⁺CD14⁺CD163^- mono-macrophage subset was significantly lower than that in CD45⁺CD14⁺CD163⁺ mono-macrophage subset. Similar results were found in the paracarcinoma tissues. We found that, as the proportion of CD11b⁺F4/80⁺CD206⁺ mono-macrophages increased gradually, the difference was statistically significant. CD163⁺/CD206⁺ mono-macrophages in bladder cancer microenvironment are abnormally elevated, and these cells are closely related to tumor progression. CD40 may be an important molecule that exerts biological function in this subset.     

Histone deacetylase 9 deficiency exaggerates uterine M2 macrophage polarization

The maternal-foetal interface is an immune-privileged site where the semi-allogeneic embryo is protected from attacks by the maternal immune system. Uterine macrophages are key players in establishing and maintaining pregnancy, and the dysregulation of the M1-M2 subpopulation balance causes abortion. We separated two distinct mouse uterine macrophage subpopulations during early pregnancy, CD45⁺F4/80⁺CD206⁻ M1-like (M1) and CD45⁺F4/80⁺CD206⁺ M2-like (M2) cells. The M1 preponderance was significantly exaggerated at 6 hours after lipopolysaccharide (LPS) treatment, and adoptive transfer of M2 macrophages partially rescued LPS-induced abortion. RNA sequencing analysis of mouse uterine M2 versus M1 revealed 1837 differentially expressed genes (DEGs), among which 629 was up-regulated and 1208 was down-regulated. Histone deacetylase 9 (Hdac9) was one of the DEGs and validated to be significantly up-regulated in uterine M2 as compared with M1. Remarkably, this differential expression profile between M1 and M2 was also evident in primary splenic macrophages and in vitro polarized murine peritoneal, bone marrow–derived and RAW 264.7 macrophages. In Hdac9/HDAC9 knockout RAW 264.7 and human THP-1–derived macrophages, the expression of M1 differentiation markers was unchanged or decreased whereas M2 markers were increased compared with the wild-type cells, and these effects were unrelated to compromised proliferation. Furthermore, Hdac9/HDAC9 ablation significantly enhanced the phagocytosis of fluorescent microspheres in M2 Raw 264.7 cells yet decreased the capacity of THP-1-derived M1 macrophages. The above results demonstrate that Hdac9/HDAC9 deficiency exaggerates M2 macrophage polarization in mouse and human macrophages, which may provide clues for our understanding of the epigenetic regulation on macrophage M1/M2 polarization in maternal-foetal tolerance.     

Sunitinib suppresses M2 polarization of macrophages in tumor microenvironment to regulate hepatocellular carcinoma progression

This work aimed to investigate the role and mechanism of Sunitinib (Sun) in suppressing M2 polarization of macrophages in tumor microenvironment (TME). IL-4 was applied to induce the M2 polarization of RAW264.7 cells, followed by treatment with Sun at 50 and 100 nM. Flow cytometry (FCM) was conducted to detect the proportion of F4/80 + CD206 + cells. Enzyme-linked immunosorbent assay (ELISA) was performed to measure the levels of IL-10, Arg-1 and VEGF. Immunofluorescence (IF) staining was carried out to detect the expression of CD206 and Arg-1. Besides, western-Blot (WB) assay was performed to measure the levels of p-JAK1 and p-STAT6 proteins. After polarization, the macrophage culture medium was employed to culture hepatocellular carcinoma (HCC) Hca-F cells. Thereafter, Transwell assays were conducted to examine cell invasion and migration, whereas plate clone formation assay was carried out to detect the clone forming capacity. In further experiments, cells were treated with the STAT6 inhibitor, or STAT6 inhibitor + Sun. Then, the polarization levels of RAW264.7 cells were detected. Moreover, this study established the xenograft tumor mouse model. Later, CD206 and Ki67 expression, IL-10, Arg-1 and VEGF expression levels in tissues, and p-JAK1 and p-STAT6 protein levels were detected by histochemical staining. Sun suppressed the M2 polarization of RAW264.7 cells. Compared with IL-4 treatment, the proportion of F4/80 + CD206 + cells decreased. Meanwhile, the levels of IL-10, Arg-1 and VEGF were downregulated, and the phosphorylation level of JAK1-STAT6 signaling was suppressed. After being cocultured with Hca-F, the malignant behaviors of HCC cells were suppressed after Sun treatment. Similarly, STAT6 inhibitor treatment suppressed the M2 polarization, while the combined application of Sun did not further restrain the polarization level. In the mouse model, Sun suppressed the expression of CD206 and Ki67, simultaneously inhibiting the polarization of JAK1-STAT6 signaling. Sunitinib can suppress the M2 polarization of macrophages to exert the anti-HCC effect, which is its another anticancer mechanism     

Targeting the Shift from M1 to M2 Macrophages in Experimental Autoimmune Encephalomyelitis Mice Treated with Fasudil

We observed the therapeutic effect of Fasudil and explored its mechanisms in experimental autoimmune encephalomyelitis (EAE), an animal model of multiple sclerosis (MS). Fasudil, a selective Rho kinase (ROCK) inhibitor, was injected intraperitoneally at 40 mg/kg/d in early and late stages of EAE induction. Fasudil ameliorated the clinical severity of EAE at different stages, and decreased the expression of ROCK-II in spleen, accompanied by an improvement in demyelination and inhibition of inflammatory cells. Fasudil mainly inhibited CD4⁺IL-17⁺ T cells in early treatment, but also elevated CD4⁺IL-10⁺ regulatory T cells and IL-10 production in late treatment. The treatment of Fasudil shifted inflammatory M1 to anti-inflammatory M2 macrophages in both early and late treatment, being shown by inhibiting CD16/32, iNOS, IL-12, TLR4 and CD40 and increasing CD206, Arg-1, IL-10 and CD14 in spleen. By using Western blot and immunohistochemistry, iNOS and Arg-1, as two most specific markers for M1 and M2, was inhibited or induced in splenic macrophages and spinal cords of EAE mice treated with Fasudil. In vitro experiments also indicate that Fasudil shifts M1 to M2 phenotype, which does not require the participation or auxiliary of other cells. The polarization of M2 macrophages was associated with the decrease of inflammatory cytokine IL-1β, TNF-α and MCP-1. These results demonstrate that Fasudil has therapeutic potential in EAE possibly through inducing the polarization of M2 macrophages and inhibiting inflammatory responses.     

Resveratrol decreases CD45+CD206− subtype macrophages in LPS‐induced murine acute lung injury by SOCS3 signalling pathway

Acute lung injury/acute respiratory distress syndrome (ALI/ARDS) are life‐threatening condition in critically ill patients. Resveratrol (Res), a natural polyphenol, has therapeutic effect in animal model with ALI; however, whether Res attenuates ALI through modulation of macrophage phenotypes in the animal model remains unknown. We in this study treated LPS‐induced murine ALI with 30 mg/kg Res and observed significantly reduced severity of ALI in the Res‐treated mice 48 hours after Res treatment. Neutrophil infiltrates were significantly reduced, accompanied with lower infiltration of CD45⁺Siglec F^? phenotype macrophages, but higher population of CD45⁺Siglec F⁺ and CD45⁺CD206⁺ alternatively activated macrophages (M2 cells) in the Res‐treated mice with ALI. In addition, the expression of IL‐1beta and CXCL15 cytokines was suppressed in the treated mice. However, Res treatment in mice with myeloid cell‐restricted SOCS3 deficiency did not significantly attenuate ALI severity and failed to increase population of both CD45⁺Siglec F⁺ and CD45⁺CD206⁺ M2 subtype macrophages in the murine ALI. Further studies in wild‐type macrophages revealed that Res treatment effectively reduced the expression of IL‐6 and CXCL15, and increased the expression of arginase‐1, SIRT1 and SOCS3. However, macrophages’ lack of SOCS3 expression were resistant to the Res‐induced suppression of IL‐6 and CXCL15 in vitro. Thus, we conclude that Res suppressed CD45⁺Siglec F^? and CD45⁺CD206^? M1 subtype macrophages through SOCS3 signalling in the LPS‐induced murine ALI.     

CCL2 and Interleukin-6 Promote Survival of Human CD11b+ Peripheral Blood Mononuclear Cells and Induce M2-type Macrophage Polarization

CCL2 and interleukin (IL)-6 are among the most prevalent cytokines in the tumor microenvironment, with expression generally correlating with tumor progression and metastasis. CCL2 and IL-6 induced expression of each other in CD11b⁺ cells isolated from human peripheral blood. It was demonstrated that both cytokines induce up-regulation of the antiapoptotic proteins cFLIP_L (cellular caspase-8 (FLICE)-like inhibitory protein), Bcl-2, and Bcl-X_L and inhibit the cleavage of caspase-8 and subsequent activation of the caspase-cascade, thus protecting cells from apoptosis under serum deprivation stress. Furthermore, both cytokines induced hyperactivation of autophagy in these cells. Upon CCL2 or IL-6 stimulation, CD11b⁺ cells demonstrated a significant increase in the mannose receptor (CD206) and the CD14⁺/CD206⁺ double-positive cells, suggesting a polarization of macrophages toward the CD206⁺ M2-type phenotype. Caspase-8 inhibitors mimicked the cytokine-induced up-regulation of autophagy and M2 polarization. Furthermore, E64D and leupeptin, which are able to function as inhibitors of autophagic degradation, reversed the effect of caspase-8 inhibitors in the M2-macrophage polarization, indicating a role of autophagy in this mechanism. Additionally, in patients with advanced castrate-resistant prostate cancer, metastatic lesions exhibited an increased CD14⁺/CD206⁺ double-positive cell population compared with normal tissues. Altogether, these findings suggest a role for CCL2 and IL-6 in the survival of myeloid monocytes recruited to the tumor microenvironment and their differentiation toward tumor-promoting M2-type macrophages via inhibition of caspase-8 cleavage and enhanced autophagy.     

A Higher Frequency of CD14+CD169+ Monocytes/Macrophages in Patients with Colorectal Cancer

Objective

Monocytes and macrophages can infiltrate into tumor microenvironment and regulate the progression of tumors. This study aimed at determining the frequency of different subsets of circulating monocytes and tumor infiltrating macrophages (TIMs) in patients with colorectal cancer (CRC).

Methods

The frequency of different subsets of circulating monocytes was characterized in 46 CRC patients and 22 healthy controls (HC) by flow cytometry. The frequency of different subsets of macrophages was analyzed in TIMs from 30 tumor tissues and in lamina propria mononuclear cells (LPMCs) from 12 non-tumor tissues. The concentrations of plasma cytokines and carcinoembryonic antigen (CEA) were determined. The potential association of these measures with the values of clinical parameters was analyzed.

Results

In comparison with that in the HC, the percentages of circulating CD14⁺CD169⁺, CD14⁺CD169⁺CD163⁺ and CD14⁺CD169⁺CD206⁺ monocytes and TIMs CD14⁺CD169⁺ as well as IL-10⁺CD14⁺CD169⁺, but not IL-12⁺ CD14⁺CD169⁺ macrophages were significantly increased, accompanied by higher levels of plasma IL-10 in the CRC patients. The percentages of CD14⁺CD169⁺ circulating monocytes and TIM macrophages were associated with the stage of disease and correlated positively with the levels of plasma IL-10 and CEA in CRC patients.

Conclusion

Our data suggest that an increase in the frequency of CD14⁺CD169⁺ cells may be associated with the development and progression of CRC and is concomitant rise of both, pro-tumor (M2-like, IL-10 producing) and anti-tumor (M1-like, IL-12 producing) monocytes and infiltrating macrophages. The frequency of CD14⁺CD169⁺ circulating monocytes and infiltrating macrophages may serve as a biomarker for evaluating the pathogenic degrees of CRC.     

The macrophage system in the intestinal muscularis externa during inflammation: an immunohistochemical and quantitative study of osteopetrotic mice

Intestinal inflammation results in disturbed intestinal motility in humans as well as in animal models. This altered function of smooth muscle cells and/or the enteric nervous system may be caused by activation of macrophages in muscularis externa and a thereby following release of cytokines and chemokines that causes influx of mononuclear cells and neutrophilic granulocytes. We subjected osteopetrotic (op/op) mice that lack certain macrophage subtypes, e.g. macrophages in the muscularis externa and +/+ mice to LPS to induce inflammatory cell influx. The densities of F4/80⁺, MHCII⁺, and myeloperoxidase⁺ cells were quantified using stereological sampling. In +/+ mice we found that MHCII⁺ cells outnumber F4/80⁺ cells and that LPS injection increased the density of MHCII⁺ cells temporarily but not that of F4/80⁺ cells. This indicates that an upregulation of MHCII antigen takes place and that two or more macrophage subtypes with comparable morphologies exist. Osteopetrotic mice lacked MHCII⁺, CD169⁺, and F4/80⁺ cells after either treatment, which indicate that these cells are CSF-1-dependent. LPS induced VCAM-1 activation of the vessels, modest influx of granulocytes, as well as an iNOS-activation in a cell type different from macrophages in both +/+ and op/op mice.     

Cell density during differentiation can alter the phenotype of bone marrow-derived macrophages

Background

Bone marrow-derived macrophages (BMDMs) are widely used primary cells for studying macrophage function. However, despite numerous protocols that are currently available, lack of a notable consensus on generating BMDMs may obscure the reliability in comparing findings from different studies or laboratories.

Findings

In this study, we addressed the effect of cell density on the resulting macrophage population. With reference to previously published methods, bone marrow cells from wild type C57BL/6 mice were plated at either 4?×?10⁵ cells or 5?×?10⁶ cells per 10 cm and cultured in 20% L-cell conditioned media for 7 days, after which they were analyzed for cell surface markers, production of proinflammatory cytokines, and responsiveness to polarizing signals. Reproducibly, cells plated at lower density gave a pure population of CD11b⁺F4/80⁺ macrophages (97.28?±?0.52%) with majority being Ly-6C^-Ly-6G^- and c-Fms⁺, while those plated at higher density produced less CD11b⁺F4/80⁺ cells and a considerably higher proportion of CD11b⁺F4/80⁺CD11c⁺ (68.72?±?2.52%) and Ly-6C^-Ly-6G⁺ (71.10?±?0.90%) cells. BMDMs derived from higher plating density also secreted less proinflammatory cytokines such as IL-6, IL-12 and TNF-α and were less phagocytic, and had a different pattern of expression for M1- and M2-related genes upon LPS or IL-4 stimulation.

Conclusions

Overall, our findings indicate that altering cell density during BMDM differentiation can give rise to distinct macrophage populations that could vary the outcome of a functional study.

     

GFP transgenic mice show dynamics of lung macrophages

The dynamics of tissue macrophages are poorly understood. We have developed a model where only lung macrophages express high levels of enhanced green fluorescent protein (EGFP) and are easily identified and followed by confocal microscopy. The EGFP⁺ cells had the morphology of macrophages and express CD11c, CD11b, and F4/80, but not NK1.1 or CD3. The F4/80⁺EGFP⁺ cells were found exclusively in the lung and not in lymph nodes, spleen, blood, liver, intestine, or uterus. These EGFP⁺ cells are phagocytic and can be activated to migrate within the lung in response to LPS stimulation. In this study, we describe a new model system that allows the specific study of macrophages in the lung.     

IL-22 produced by Th22 cells aggravates atherosclerosis development in ApoE−/− mice by enhancing DC-induced Th17 cell proliferation

Th22 cells are a novel subset of CD4⁺ T cells that primarily mediate biological effects through IL-22, with both Th22 cells and IL-22 being closely associated with multiple autoimmune and chronic inflammatory diseases. In this study, we investigated whether and how Th22 cells affect atherosclerosis. ApoE^−/− mice and age-matched C57BL/6J mice were fed a Western diet for 0, 4, 8 or 12 weeks. The results of dynamic analyses showed that Th22 cells, which secrete the majority of IL-22 among the known CD4⁺ cells, play a major role in atherosclerosis. ApoE^−/− mice fed a Western diet for 12 weeks and administered recombinant mouse IL-22 (rIL-22) developed substantially larger plaques in both the aorta and aortic root and higher levels of CD3⁺ T cells, CD68⁺ macrophages, collagen, IL-6, Th17 cells, dendritic cells (DCs) and pSTAT3 but lower smooth muscle cell (SMC) α-actin expression than the control mice. Treatment with a neutralizing anti–IL-22 monoclonal antibody (IL-22 mAb) reversed the above effects. Bone marrow-derived DCs exhibited increased differentiation into mature DCs following rIL-22 and ox-LDL stimulation. IL-17 and pSTAT3 were up-regulated after stimulation with IL-22 and ox-LDL in cells cocultured with CD4⁺ T cells and mature DC supernatant, but this up-regulation was significantly inhibited by IL-6mAb or the cell-permeable STAT3 inhibitor S31-201. Thus, Th22 cell-derived IL-22 aggravates atherosclerosis development through a mechanism that is associated with IL-6/STAT3 activation, DC-induced Th17 cell proliferation and IL-22–stimulated SMC dedifferentiation into a synthetic phenotype.     

M1 macrophage subtypes activation and adipocyte dysfunction worsen during prolonged consumption of a fructose-rich diet

Fructose-rich diet (FRD) has been associated with obesity development, which is characterized by adipocytes hypertrophy and chronic low-grade inflammation. Interaction of adipocytes and immune cells plays a key role in adipose tissue (AT) alterations in obesity. We assessed the metabolic and immune impairments in AT in a murine obesity model induced by FRD at different periods. Adult Swiss mice were divided into groups of 6 and 10 weeks of fructose (FRD 6wk, FRD 10wk) or water intake (CTR 6wk, CTR 10wk). FRD induced increased in body weight, epidydimal AT mass, and plasmatic and liver Tg, and impaired insulin sensitivity. Also, hypertrophic adipocytes from FRD 6wk-10wk mice showed higher IL-6 when stimulated with LPS and leptin secretion. Several of these alterations worsened in FRD 10wk. Regarding AT inflammation, FRD mice have increased TNFα, IL-6 and IL1β, and decrease in IL-10 and CD206 mRNA levels. Using CD11b, LY6C, CD11c and CD206 as macrophages markers, we identified for first time in AT M1 (M1a: Ly6C^+/−CD11c⁺CD206⁻ and M1b: Ly6C^+/−CD11c⁺CD206⁺) and M2 subtypes (Ly6C^+/−CD11c⁻CD206⁺). M1a phenotype increased from 6 weeks onward, while Ly6C^+/− M1b phenotype increased only after 10 weeks. Finally, co-culture of RAW264.7 (monocytes cell line) and CTR or FRD adipocytes showed that FRD 10wk adipocytes increased IL-6 expression in non- or LPS-stimulated monocytes. Our results showed that AT dysfunction got worse as the period of fructose consumption was longer. Inflammatory macrophage subtypes increased depending on the period of FRD intake, and hypertrophic adipocytes were able to create an environment that favored M1 phenotype in vitro.     

PPAR γ is highly expressed in F4/80 adipose tissue macrophages and dampens adipose-tissue inflammation

Macrophage infiltration into adipose tissue is a hallmark of obesity. We recently reported two phenotypically distinct subsets of adipose tissue macrophages (ATM) based on the surface expression of the glycoprotein F4/80 and responsiveness to treatment with a peroxisome proliferator-activated receptor (PPAR) γ agonist. Hence, we hypothesized that F4/80^hi and F4/80^lo ATM differentially express PPAR γ. This study phenotypically and functionally characterizes F4/80^hi and F4/80^lo ATM subsets during obesity. Changes in gene expression were also examined on sorted F4/80^lo and F4/80^hi ATM by quantitative real-time RT-PCR. We show that while F4/80^lo macrophages predominate in adipose tissue of lean mice, obesity causes accumulation of both F4/80^lo and F4/80^hi ATM. Moreover, accumulation of F4/80^hi ATM in adipose tissue is associated with impaired glucose tolerance. Phenotypically, F4/80^hi ATM express greater amounts of CD11c, MHC II, CD49b, and CX3CR1 and produce more TNF-α, MCP-1, and IL-10 than F4/80^lo ATM. Gene expression analyses of the sorted populations revealed that only the F4/80^lo population produced IL-4, whereas the F4/80^hi ATM expressed greater amounts of PPAR γ, δ, CD36 and toll-like receptor-4. In addition, the deficiency of PPAR γ in immune cells favors expression of M1 and impairs M2 macrophage marker expression in adipose tissue. Thus, PPAR γ is differentially expressed in F4/80^hi versus F4/80^low ATM subsets and its deficiency favors a predominance of M1 markers in WAT.