%0 Journal Article
%T Downregulation of RelA (p65) by Rapamycin Inhibits Murine Adipocyte Differentiation and Reduces Fat Mass of C57BL/6J Mice despite High Fat Diet
%A Peter D. Ray
%A Reid A. Maclellan
%A Jin He
%A Zhigang Liu
%A Jianguo Wu
%J ISRN Obesity
%D 2014
%R 10.1155/2014/540582
%X Rapamycin (RAPA) is a clinical immunosuppressive agent first reported in the literature in 1975 after its discovery in a soil sample from the island of Rapa Nui. Aside from the well-documented effects of RAPA on cell division and immunologic response, the literature reveals it to have negative effects on adipocyte and osteocyte differentiation as well. Understanding of the molecular effects of RAPA on cell differentiation is fragmentary in regard to these cell lineages. In this paper, we examined a potential mechanism for RAPA¡¯s effects on adipocyte differentiation in vitro and in vivo. The data point to a unique role of Rel A (p65)¡ªa component of the NF- B system¡ªin mediating this event. In murine adipose derived stem cell cultures (muADSCs) from C57BL/6J mice, RAPA was found to selectively downregulate RelA/p65, mammalian target of rapamycin (mTOR), and do so in a dose-dependent manner. This implies a novel role for RelA in adipocyte biology. Intracellular lipid accumulation¡ªas subjectively observed¡ªwas also decreased in muADSCs treated with RAPA. Mice treated with RAPA had reduced overall body weight and reduced size of both intraabdominal and subcutaneous fat pads. When treated with RAPA, mice fed a high fat diet did not develop obesity and were not different from their regular diet controls in terms of body weight. These results suggested that RAPA inhibits adipogenesis and lipogenesis of muADSCs resulting in a prevention of obesity in C57BL/6J mice. This inhibition is strong enough to negate the effects of a high fat diet and seems to act by downregulating the RelA/p65 mTOR signaling pathway¡ªa key component of the NF- B family. 1. Introduction In the 1950s molecular geneticists were trying to determine if proteins built from amino acids were required for the synthesis of nucleic acid chains or vice versa [1]. As a result of this work, the Rel gene was described in E. coli in 1969 [2] and so named because when the gene was present it rendered ¡°relaxed¡± mutants of E. coli more stringently dependent on the presence of specific amino acids for successful RNA synthesis. ¡°Rel proteins¡± share genetic homology and yet initiate different proliferative and/or transformative effects on different cells [3]. The first described ¡°Rel protein¡± (REV-T) was most intriguing because of its ability to transform cells into malignant populations [4]. A viral form (v-Rel) was then also identified in birds, implying that there existed a related homology across species of these regulator proteins [5]. Due to their ability to drive replication and transformation from
%U http://www.hindawi.com/journals/isrn.obesity/2014/540582/