Stabilization and augmentation of circulating AIM in mice by synthesized IgM-Fc.

Toshihiro Kai,Toru Miyazaki,Tomoko Yamazaki,Satoko Arai,Marcia B Aguila

doi:10.1371/journal.pone.0097037

Toshihiro Kai, Toru Miyazaki + Show 3 more

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https://doi.org/10.1371/journal.pone.0097037

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Abstract

Owing to rapid and drastic changes in lifestyle and eating habits in modern society, obesity and obesity-associated diseases are among the most important public health problems. Hence, the development of therapeutic approaches to regulate obesity is strongly desired. In view of previous work showing that apoptosis inhibitor of macrophage (AIM) blocks lipid storage in adipocytes, thereby preventing obesity caused by a high-fat diet, we here explored a strategy to augment circulating AIM levels. We synthesized the Fc portion of the soluble human immunoglobulin (Ig)M heavy chain and found that it formed a pentamer containing IgJ as natural IgM does, and effectively associated with AIM in vitro. When we injected the synthesized Fc intravenously into mice lacking circulating IgM, it associated with endogenous mouse AIM, protecting AIM from renal excretion and preserving the circulating AIM levels. As the synthesized Fc lacked the antigen-recognizing variable region, it provoked no undesired immune response. In addition, a challenge with the Fc-human AIM complex in wild-type mice, which exhibited normal levels of circulating IgM and AIM, successfully maintained the levels of the human AIM in mouse blood. We also observed that the human AIM was effectively incorporated into adipocytes in visceral fat tissue, suggesting its functionality against obesity. Thus, our findings reveal potent strategies to safely increase AIM levels, which could form the basis for developing novel therapies for obesity.

Highlights

The proportion of the population suffering from obesity has been rapidly increasing because of drastic changes in lifestyle and eating habits in modern society
apoptosis inhibitor of macrophage (AIM) Bound to IgM-free constant (Fc) In a previous report, we suggested that AIM may bind to the Fc portion of IgM, as AIM associates with different monoclonal IgM clones regardless of the type of the variable region
To assess whether the FL-hFc formed a complex composed by such molecules, we immunoprecipitated the FL-hFc from the Dsm mouse serum injected with FLhFc using an anti-FLAG antibody, and the precipitates were tested FL-hFc or hAIM by immunoblotting with anti-HA (for AIM), complementary factor 1q (C1q), and a1-antitrypsin

Summary

Introduction

The proportion of the population suffering from obesity has been rapidly increasing because of drastic changes in lifestyle and eating habits in modern society. Recent evidence suggests that NAFLD is responsible for the development of hepatocellular carcinoma (HCC) [10,11,12], and the population of NAFLD-associated HCC patients is clearly growing [13,14,15,16] In addition to such diseases associated with metabolic syndrome, many studies in humans and mice have shown a strong correlation between obesity and autoimmune diseases, which are accompanied by increased levels of autoantibodies [17,18,19,20,21,22]. The development of therapeutic strategies to regulate obesity is strongly desired

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