Emilie Distel scite author profile

SUMMARY Diabetes is a major risk factor for atherosclerosis. Although atherosclerosis is initiated by deposition of cholesterol-rich lipoproteins in the artery wall, the entry of inflammatory leukocytes into lesions fuels disease progression and impairs resolution. We show that diabetic mice have increased numbers of circulating neutrophils and Ly6-Chi monocytes, reflecting hyperglycemia-induced proliferation and expansion of bone marrow myeloid progenitors and release of monocytes into the circulation. Increased neutrophil production of S100A8/A9, via an interaction with the receptor for advanced glycation end products on common myeloid progenitor cells, leads to enhanced myelopoiesis. Treatment of hyperglycemia reduces monocytosis, entry of monocytes into atherosclerotic lesions and promotes regression. In patients with type I diabetes plasma S100A8/A9 levels correlate with leukocyte counts and coronary artery disease. Thus, hyperglycemia drives myelopoiesis and thus promotes atherogenesis in diabetes.

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The neuroimmune guidance cue netrin-1 promotes atherosclerosis by inhibiting the emigration of macrophages from plaques

Gils

et al. 2012

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Atherosclerotic plaque formation is fueled by the persistence of lipid-laden macrophages in the artery wall. The mechanisms by which these cells become trapped, thereby establishing chronic inflammation, remain unknown. Netrin-1, a neuroimmune guidance cue, was secreted by macrophages in human and mouse atheroma, where it inactivated macrophage migration to chemokines implicated in their egress from plaques. Acting via its receptor UNC5b, netrin-1 inhibited CCL2- and CCL19-directed macrophage migration, Rac1 activation and actin polymerization. Targeted deletion of netrin-1 in macrophagesseverely diminished atherosclerosis progression in Ldlr−/− mice and promoted macrophage emigration from plaques. Thus, netrin-1 promotes atherosclerosis by retaining macrophages in the artery wall and establish a causative role for negative regulators of leukocyte migration in chronic inflammation.

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The infrapatellar fat pad in knee osteoarthritis: An important source of interleukin‐6 and its soluble receptor

Distel¹,

Cadoudal²,

Durant³

et al. 2009

Arthritis & Rheumatism

200

156

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Objective. Obesity is a potent risk factor in knee osteoarthritis (OA). It has been suggested that adipokines, secreted by adipose tissue (AT) and largely found in the synovial fluid of OA patients, derive in part from the infrapatellar fat pad (IFP), also known as Hoffa's fat pad. The goal of this study was to characterize IFP tissue in obese OA patients and to compare its features with thigh subcutaneous AT to determine whether the IFP contributes to local inflammation in knee OA via production of specific cytokines.Methods. IFP and subcutaneous AT samples were obtained from 11 obese women (body mass index >30 kg/m 2 ) with knee femorotibial OA. Gene expression was measured by real-time quantitative polymerase chain reaction. Cytokine concentrations in plasma and in conditioned media of cultured AT explants were determined by enzyme-linked immunosorbent assay or by Luminex xMAP technology.Results. In IFP tissue versus subcutaneous AT, there was a decrease in the expression of genes for key enzymes implicated in adipocyte lipid metabolism, whereas the expression levels of genes for AT markers remained similar. A 2-fold increase in the expression of the gene for interleukin-6 (IL-6), a 2-fold increase in the release of IL-6, and a 3.6-fold increase in the release of soluble IL-6 receptor (sIL-6R) were observed in IFP samples, compared with subcutaneous AT, but the rates of secretion of other cytokines in IFP samples were similar to the rates in subcutaneous AT. In addition, leptin secretion was decreased by 40%, whereas adiponectin secretion was increased by 70%, in IFP samples versus subcutaneous AT.Conclusion. Our results indicate that the IFP cytokine profile typically found in OA patients could play a role in paracrine inflammation via the local production of IL-6/sIL-6R and that such a profile might contribute to damage in adjacent cartilage.

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Diabetes Adversely Affects Macrophages During Atherosclerotic Plaque Regression in Mice

et al. 2011

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OBJECTIVEPatients with diabetes have increased cardiovascular risk. Atherosclerosis in these patients is often associated with increased plaque macrophages and dyslipidemia. We hypothesized that diabetic atherosclerosis involves processes that impair favorable effects of lipid reduction on plaque macrophages.RESEARCH DESIGN AND METHODSReversa mice are LDL receptor–deficient mice that develop atherosclerosis. Their elevated plasma LDL levels are lowered after conditional knockout of the gene encoding microsomal triglyceride transfer protein. We examined the morphologic and molecular changes in atherosclerotic plaques in control and streptozotocin-induced diabetic Reversa mice after LDL lowering. Bone marrow–derived macrophages were also used to study changes mediated by hyperglycemia.RESULTSReversa mice were fed a western diet for 16 weeks to develop plaques (baseline). Four weeks after lipid normalization, control (nondiabetic) mice had reduced plasma cholesterol (−77%), plaque cholesterol (−53%), and plaque cells positive for macrophage marker CD68+ (−73%), but increased plaque collagen (+116%) compared with baseline mice. Diabetic mice had similarly reduced plasma cholesterol, but collagen content increased by only 34% compared with baseline; compared with control mice, there were lower reductions in plaque cholesterol (−30%) and CD68+ cells (−41%). Diabetic (vs. control) plaque CD68+ cells also exhibited more oxidant stress and inflammatory gene expression and less polarization toward the anti-inflammatory M2 macrophage state. Many of the findings in vivo were recapitulated by hyperglycemia in mouse bone marrow–derived macrophages.CONCLUSIONSDiabetes hindered plaque regression in atherosclerotic mice (based on CD68+ plaque content) and favorable changes in plaque macrophage characteristics after the reduction of elevated plasma LDL.

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miR33 Inhibition Overcomes Deleterious Effects of Diabetes Mellitus on Atherosclerosis Plaque Regression in Mice

Distel

Barrett

Chung

et al. 2014

Circulation Research

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Rationale Diabetes increases cardiovascular disease risk in humans and remains elevated despite cholesterol-lowering therapy with statins. Consistent with this, in mouse models diabetes impairs atherosclerosis plaque regression after aggressive cholesterol-lowering. miR33 is a key negative regulator of the reverse cholesterol transport factors, ABCA1 and HDL, which suggested that its inhibition may overcome this impairment. Objective To assess the effects of miR33 inhibition on atherosclerosis regression in diabetic mice. Methods and Results Reversa mice, which are deficient in the LDL receptor and in which hypercholesterolemia is reversed by conditional inactivation of the microsomal triglyceride transfer protein (Mttp) gene, were placed on an atherogenic diet for 16 weeks, then either made diabetic by STZ injection or kept normoglycemic. Lipid-lowering was induced by Mttp inactivation and mice were treated with anti-miR33 or control oligonucleotides. Whereas regression was impaired in diabetic mice treated with control oligonucleotides, anti-miR33 treatment decreased plaque macrophage content and inflammatory gene expression in these mice. The decreased macrophage content in anti-miR33-treated diabetic mice was associated with a blunting of hyperglycemia-induced monocytosis and reduced monocyte recruitment to the plaque, which was traced to an inhibition of the proliferation of bone marrow monocyte precursors associated with the upregulation of their Abca1. Conclusions miR33 inhibition overcomes deleterious effects of diabetes in atherosclerosis regression in mice, which suggests a therapeutic strategy in diabetic patients, who remain at elevated cardiovascular disease risk despite plasma cholesterol lowering.

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Emilie Distel

Hyperglycemia Promotes Myelopoiesis and Impairs the Resolution of Atherosclerosis

The neuroimmune guidance cue netrin-1 promotes atherosclerosis by inhibiting the emigration of macrophages from plaques

The infrapatellar fat pad in knee osteoarthritis: An important source of interleukin‐6 and its soluble receptor

Diabetes Adversely Affects Macrophages During Atherosclerotic Plaque Regression in Mice

miR33 Inhibition Overcomes Deleterious Effects of Diabetes Mellitus on Atherosclerosis Plaque Regression in Mice

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