Human T2D is characterized by a low-grade systemic inflammation, loss of -cells, and diminished insulin production. Local islet immunity is still poorly understood, and hence, we evaluated macrophage subpopulations in pancreatic islets in the well-established murine model of T2D, the db/db mouse. Already at 8 weeks of disease, on average, 12 macrophages were observed in the diabetic islets, whereas only two were recorded in the nondiabetic littermates. On a detailed level, the islet resident macrophages increased fourfold compared with nondiabetic littermates, whereas a pronounced recruitment (eightfold) of a novel subset of macrophages (CD68 ϩ F4/80 Ϫ ) was observed. The majority of the CD68 ϩ F4/80 ϩ but only 40% of the CD68 ϩ F4/80 Ϫ islet macrophages expressed CD11b. Both islet-derived macrophage subsets expressed moderate MHC-II, high galectin-3, and low CD80/CD86 levels, suggesting the cells to be macrophages rather than DCs. On a functional level, the vast majority of the macrophages in the diabetic islets was of the proinflammatory, M1-like phenotype. The systemic immunity in diabetic animals was characterized by a low-grade inflammation with elevated cytokine levels and increase of splenic cytokine, producing CD68 ϩ F4/80 Ϫ macrophages. In late-stage diabetes, the cytokine signature changed toward a TGF--dominated profile, coinciding with a significant increase of galectin-3-positive macrophages in the spleen. In summary, our results show that proinflammatory M1-like galectin-3 ϩ CD80/CD86 low macrophages invade diabetic islets. Moreover, the innate immunity matures in a diabetes-dependent manner from an initial proinflammatory toward a profibrotic phenotype, supporting the concept that T2D is an inflammatory disease.Abbreviations: db/ ϩ ϭnondiabetic control, db/dbϭhomozygous diabetic, FSCϭforward-scatter, HFDϭhigh fat diet, KCϭkeratinocyte-derived chemokine, SSCϭside-scatter, T1/2Dϭtype 1/2 diabetes Article 0741-5400/14/0095-149
