Increased inflammatory properties of adipose tissue macrophages recruited during diet-induced obesity

CN Lumeng, SM DeYoung, JL Bodzin, AR Saltiel - Diabetes, 2007 - Am Diabetes Assoc
Diabetes, 2007Am Diabetes Assoc
Although recent studies show that adipose tissue macrophages (ATMs) participate in the
inflammatory changes in obesity and contribute to insulin resistance, the properties of these
cells are not well understood. We hypothesized that ATMs recruited to adipose tissue during
a high-fat diet have unique inflammatory properties compared with resident tissue ATMs.
Using a dye (PKH26) to pulse label ATMs in vivo, we purified macrophages recruited to
white adipose tissue during a high-fat diet. Comparison of gene expression in recruited and …
Although recent studies show that adipose tissue macrophages (ATMs) participate in the inflammatory changes in obesity and contribute to insulin resistance, the properties of these cells are not well understood. We hypothesized that ATMs recruited to adipose tissue during a high-fat diet have unique inflammatory properties compared with resident tissue ATMs. Using a dye (PKH26) to pulse label ATMs in vivo, we purified macrophages recruited to white adipose tissue during a high-fat diet. Comparison of gene expression in recruited and resident ATMs using real-time RT-PCR and cDNA microarrays showed that recruited ATMs overexpress genes important in macrophage migration and phagocytosis, including interleukin-6 (IL-6), inducible nitric oxide synthase (iNOS), and C-C chemokine receptor 2 (CCR2). Many of these genes were not induced in ATMs from high-fat diet–fed CCR2 knockout mice, supporting the importance of CCR2 in regulating recruitment of inflammatory ATMs during obesity. Additionally, expression of Apoe was decreased, whereas genes important in lipid metabolism, such as Pparg, Adfp, Srepf1, and Apob48r, were increased in the recruited macrophages. In agreement with this, ATMs from obese mice had increased lipid content compared with those from lean mice. These studies demonstrate that recruited ATMs in obese animals represent a subclass of macrophages with unique properties.
Am Diabetes Assoc