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  • Modest hypoxia significantly reduces triglyceride content and lipid droplet size in 3T3-L1 adipocytes.

Modest hypoxia significantly reduces triglyceride content and lipid droplet size in 3T3-L1 adipocytes.

Biochemical and biophysical research communications (2013-09-18)
Takeshi Hashimoto, Takumi Yokokawa, Yuriko Endo, Nobumasa Iwanaka, Kazuhiko Higashida, Sadayoshi Taguchi
ABSTRACT

A previous study has demonstrated that endurance training under hypoxia results in a greater reduction in body fat mass compared to exercise under normoxia. However, the cellular and molecular mechanisms that underlie this hypoxia-mediated reduction in fat mass remain uncertain. Here, we examine the effects of modest hypoxia on adipocyte function. Differentiated 3T3-L1 adipocytes were incubated at 5% O2 for 1 week (long-term hypoxia, HL) or one day (short-term hypoxia, HS) and compared with a normoxia control (NC). HL, but not HS, resulted in a significant reduction in lipid droplet size and triglyceride content (by 50%) compared to NC (p<0.01). As estimated by glycerol release, isoproterenol-induced lipolysis was significantly lowered by hypoxia, whereas the release of free fatty acids under the basal condition was prominently enhanced with HL compared to NC or HS (p<0.01). Lipolysis-associated proteins, such as perilipin 1 and hormone-sensitive lipase, were unchanged, whereas adipose triglyceride lipase and its activator protein CGI-58 were decreased with HL in comparison to NC. Interestingly, such lipogenic proteins as fatty acid synthase, lipin-1, and peroxisome proliferator-activated receptor gamma were decreased. Furthermore, the uptake of glucose, the major precursor of 3-glycerol phosphate for triglyceride synthesis, was significantly reduced in HL compared to NC or HS (p<0.01). We conclude that hypoxia has a direct impact on reducing the triglyceride content and lipid droplet size via decreased glucose uptake and lipogenic protein expression and increased basal lipolysis. Such an hypoxia-induced decrease in lipogenesis may be an attractive therapeutic target against lipid-associated metabolic diseases.

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Sigma-Aldrich
Cholesterol Esterase from Pseudomonas fluorescens, lyophilized powder, ≥10,000 units/g protein