Abstract
A major component of obesity-related insulin resistance is the establishment of a chronic inflammatory state with invasion of white adipose tissue by mononuclear cells. This results in the release of pro-inflammatory cytokines, which in turn leads to insulin resistance in target tissues such as skeletal muscle and liver. To determine the role of insulin action in macrophages and monocytes in obesity-associated insulin resistance, we conditionally inactivated the insulin receptor (IR) gene in myeloid lineage cells in mice (IRΔmyel-mice). While these animals exhibit unaltered glucose metabolism on a normal diet, they are protected from the development of obesity-associated insulin resistance upon high fat feeding. Euglycemic, hyperinsulinemic clamp studies demonstrate that this results from decreased basal hepatic glucose production and from increased insulin-stimulated glucose disposal in skeletal muscle. Furthermore, IRΔmyel-mice exhibit decreased concentrations of circulating tumor necrosis factor (TNF) α and thus reduced c-Jun N-terminal kinase (JNK) activity in skeletal muscle upon high fat feeding, reflecting a dramatic reduction of the chronic and systemic low-grade inflammatory state associated with obesity. This is paralleled by a reduced accumulation of macrophages in white adipose tissue due to a pronounced impairment of matrix metalloproteinase (MMP) 9 expression and activity in these cells. These data indicate that insulin action in myeloid cells plays an unexpected, critical role in the regulation of macrophage invasion into white adipose tissue and in the development of obesity-associated insulin resistance.
Highlights
Obesity in humans and rodents is associated with increased expression of pro-inflammatory cytokines, such as tumor necrosis factor (TNF) a, in white adipose tissue (WAT) [1,2,3,4]
We have generated and analyzed mice with inactivation of the insulin receptor in myeloid cell-derived, inflammatory cells. These animals are protected from the development of obesity-associated deterioration of glucose metabolism, thereby defining insulin action in inflammatory cells as a novel and promising target for therapeutic intervention against obesity-associated diabetes mellitus
When exposed to high fat diet (HFD), control-mice significantly gained weight over animals exposed to normal chow diet (NCD), and the degree of weight gain was similar between control- and IRDmyel-mice (Figure 1C)
Summary
Obesity in humans and rodents is associated with increased expression of pro-inflammatory cytokines, such as tumor necrosis factor (TNF) a, in white adipose tissue (WAT) [1,2,3,4] This results from increased cytokine expression in WAT and more importantly from infiltration of WAT by macrophages [5,6,7]. Inactivation of the inhibitor of NFkB kinase beta (IKK2), the main activator of TNF-a-stimulated NFkB activation in myeloid cells, protects mice from the development of obesity-associated insulin resistance [11] These findings suggest that macrophages play a key role in the development of obesityassociated insulin resistance and type 2 diabetes. A critical role in the development of obesity-associated inflammation has been demonstrated for mast cells and lymphocytes [12,13]
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