IL-6 signaling drives self-renewal and alternative activation of adipose tissue macrophages.

Introduction: Obesity is associated with chronic low-grade inflammation of adipose tissue (AT) and an increase of AT macrophages (ATMs) that is linked to the onset of type 2 diabetes. We have recently shown that neutralization of interleukin (IL)-6 in obese AT organ cultures inhibits proliferation of ATMs, which occurs preferentially in alternatively activated macrophage phenotype. Methods: In this study, we investigated AT biology and the metabolic phenotype of mice with myeloid cell-specific IL-6Rα deficiency (Il6ra Δmyel) after normal chow and 20 weeks of high-fat diet focusing on AT inflammation, ATM polarization and proliferation. Using organotypical AT culture and bone marrow derived macrophages (BMDMs) of IL-4Rα knockout mice (Il4ra -/-) we studied IL-6 signaling. Results: Obese Il6ra Δmyel mice exhibited no differences in insulin sensitivity or histological markers of AT inflammation. Notably, we found a reduction of ATMs expressing the mannose receptor 1 (CD206), as well as a decrease of the proliferation marker Ki67 in ATMs of Il6ra Δmyel mice. Importantly, organotypical AT culture and BMDM data of Il4ra -/- mice revealed that IL-6 mediates a shift towards the M2 phenotype independent from the IL-6/IL-4Rα axis. Discussion: Our results demonstrate IL-4Rα-independent anti-inflammatory effects of IL-6 on macrophages and the ability of IL-6 to maintain proliferation rates in obese AT.

Levator scapulae and rhomboid minor are united.

Pain over the superior angle of the scapula is a common musculoskeletal symptom. It is often accompanied by radiating pain to the neck, head, and shoulder. The aetiologies can be varied but may also be idiopathic in nature. To explore the fascial connections of this region, we studied 26 unembalmed, -two Thiel and one alcohol body-donors of science, by dissection, histological probes, and plastinations. When removing the descending and transverse fibres of the trapezius, a large prominent triangular area of white connectives is revealed, varying in mass. A subdivision of these connectives can be further dissected to prove that the rhomboid minor and levator scapulae muscles are interconnected and enclosed by connectives. Between these two muscles a bridge of connective tissue, containing fat, is observed. These connectives end cranially at the surface of the splenius capitis, and at the midline, containing vessels and nerves, as supported by histology and plastinations. This unification is separate from the rhomboid major muscle but overlaps with the latter dorsally. It connects to the superior angle of scapula and its upper medial borders, respectively, and cranially to the root of the spine of the scapula. Beneath the united levator scapulae and rhomboid minor, described here, the serratus posterior superior and possibly serratus anterior form a hypomochlion or fulcrum at the superior angle of the scapula. Any tension on this unified entity can unbalance this fulcrum. Investigating the connections between these two unified muscles may help explain the often idiopathic nature of superior scapular pain, and the success or failure of surgery, and other treatments.

CD4+ T cells regulate glucose homeostasis independent of adipose tissue dysfunction in mice.

Obesity is frequently associated with a chronic low-grade inflammation in the adipose tissue (AT) and impaired glucose homeostasis. Adipose tissue macrophages (ATMs) have been shown to accumulate in the inflamed AT either by means of recruitment from the blood or local proliferation. ATM proliferation and activation can be stimulated by TH2 cytokines, such as IL-4 and IL-13, suggesting involvement of CD4-positive T cells in ATM proliferation and activation. Furthermore, several studies have associated T cells to alterations in glucose metabolism. Therefore, we sought to examine a direct impact of CD4-positive T cells on ATM activation, ATM proliferation and glucose homeostasis using an in vivo depletion model. Surprisingly, CD4 depletion did not affect ATM activation, ATM proliferation, or insulin sensitivity. However, CD4 depletion led to a significant improvement of glucose tolerance. In line with this, we found moderate disturbances in pancreatic endocrine function following CD4 depletion. Hence, our data suggest that the effect on glucose metabolism observed after CD4 depletion might be mediated by organs other than AT and independent of AT inflammation.

IL-6 Regulates M2 Polarization and Local Proliferation of Adipose Tissue Macrophages in Obesity.

Obesity is associated with chronic low-grade inflammation of adipose tissue (AT) and an increase of AT macrophages (ATMs) that is linked to the onset of type 2 diabetes. We have recently shown that focal sites of inflammation around dying adipocytes, so-called crown-like structures, exhibit a unique microenvironment for macrophage proliferation. Interestingly, locally proliferating macrophages were not classically activated (M1), but they exhibited a rather alternatively activated (M2) immune phenotype. In this study, we established organotypic cell cultures of AT explants to study the impact of cytokine treatment on local ATM proliferation, without the bias of early monocyte recruitment. We show that exposure of AT to Th2 cytokines, such as IL-4, IL-13, and GM-CSF, stimulates ATM proliferation, whereas Th1 cytokines, such as TNF-α, inhibit local ATM proliferation. Furthermore, AT from obese mice exhibits an increased sensitivity to IL-4 stimulation, indicated by an increased phosphorylation of STAT6. In line with this, gene expression of the IL-4 receptor (Il4ra) and its ligand IL-13 are elevated in AT of obese C57BL/6 mice. Most importantly, Il4ra expression and susceptibility to IL-4 or IL-13 treatment depend on IL-6 signaling, which seems to be the underlying mechanism of local ATM proliferation in obesity. We conclude that IL-6 acts as a Th2 cytokine in obesity by stimulating M2 polarization and local ATM proliferation, presumably due to upregulation of the IL-4 receptor α.