Type 2 diabetes and obesity have emerged as global public health crises. Adipose tissue expansion in obesity promotes accumulation of classically activated macrophages that perpetuate chronic inflammation and sustain insulin resistance. Acute inflammation normally resolves in an actively orchestrated series of molecular and cellular events that ensures return to homeostasis after an inflammatory insult, a process regulated in part by endogenous lipid mediators such as the resolvins. In this study, we sought to determine whether stimulating resolution with resolvin D1 (RvD1) improves insulin sensitivity by resolving chronic inflammation associated with obesity. In male leptin receptor-deficient (db/db) mice, treatment with RvD1 (2 μg/kg) improved glucose tolerance, decreased fasting blood glucose, and increased insulin-stimulated Akt phosphorylation in adipose tissue relative to vehicle-treated mice. Treatment with RvD1 increased adiponectin production, while expression of IL-6 in adipose tissue was decreased. The formation of crown-like structures rich in inflammatory F4/80(+)CD11c(+) macrophages was reduced by >50% in adipose tissue by RvD1 and was associated with an increased percentage of F4/80(+) cells expressing macrophage galactose-type C-type lectin 1 (MGL-1), a marker of alternatively activated macrophages. These results suggest that stimulating resolution with the endogenous proresolving mediator RvD1 could provide a novel therapeutic strategy for treating obesity-induced diabetes.
Obesity and type 2 diabetes are emerging global epidemics associated with chronic, low-grade inflammation. A characteristic feature of type 2 diabetes is delayed wound healing, which increases the risk of recurrent infections, tissue necrosis, and limb amputation. In health, inflammation is actively resolved by endogenous mediators, such as the resolvins. D-series resolvins are generated from docosahexaenoic acid (DHA) and promote macrophage-mediated clearance of microbes and apoptotic cells. However, it is not clear how type 2 diabetes affects the resolution of inflammation. Here, we report that resolution of acute peritonitis is delayed in obese diabetic (db/db) mice. Altered resolution was associated with decreased apoptotic cell and Fc receptor–mediated macrophage clearance. Treatment with resolvin D1 (RvD1) enhanced resolution of peritonitis, decreased accumulation of apoptotic thymocytes in diabetic mice, and stimulated diabetic macrophage phagocytosis. Conversion of DHA to monohydroxydocosanoids, markers of resolvin biosynthesis, was attenuated in diabetic wounds, and local application of RvD1 accelerated wound closure and decreased accumulation of apoptotic cells and macrophages in the wounds. These findings support the notion that diabetes impairs resolution of wound healing and demonstrate that stimulating resolution with proresolving lipid mediators could be a novel approach to treating chronic, nonhealing wounds in patients with diabetes.
Chronic inflammation is an underlying factor linking obesity with insulin resistance. Diet-induced obesity promotes an increase in circulating levels of inflammatory monocytes and their infiltration into expanding adipose tissue. Nevertheless, the endogenous pathways that trigger and sustain chronic low-grade inflammation in obesity are incompletely understood. Here, we report that a high-fat diet selectively increases the circulating levels of CD11b+ monocytes in wild-type mice that express leukotriene B4 receptor, BLT-1, and that this increase is abolished in BLT-1-null mice. The accumulation of classically activated (M1) adipose tissue macrophages (ATMs) and the expression of pro-inflammatory cytokines and chemokines (i.e. IL-6 and Ccl2) was largely blunted in adipose tissue of obese BLT-1-/- mice, while the ratio of alternatively activated (M2) ATMs to M1 ATMs was increased. Obese BLT-1-/- mice were protected from systemic glucose and insulin intolerance and this was associated with a decrease in inflammation in adipose tissue and liver and a decrease in hepatic triglyceride accumulation. Deletion of BLT-1 prevented high-fat induced loss of insulin signaling in liver and skeletal muscle. These observations elucidate a novel role of chemoattractant receptor, BLT-1, in promoting monocyte trafficking to adipose tissue and promoting chronic inflammation in obesity and could lead to the identification of new therapeutic targets for treating insulin resistance in obesity.
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