Abstract
Glucosylceramide synthase (GlcT-1) catalyzes the synthesis of glucosylceramide (GlcCer), the core structure of major glycosphingolipids (GSLs). Obesity is a metabolic disorder caused by an imbalance between energy uptake and expenditure, resulting in excess stored body fat. Recent studies have shown that GSL levels are increased in obese rodents and that pharmacologically reducing GSL levels by inhibiting GlcCer synthesis improves adipocyte function. However, the molecular mechanism underlying these processes is still not clearly understood. Using Drosophila as a model animal, we report that GlcT-1 expression in the fat body, which is equivalent to mammalian adipose tissue, regulates energy metabolism. Overexpression of GlcT-1 increases stored nutrition (triacylglycerol and carbohydrate) levels. Conversely, reduced expression of GlcT-1 in the fat body causes a reduction of fat storage. This regulation occurs, at least in part, through the activation of p38-ATF2 signaling. Furthermore, we found that GlcCer is the sole GSL of the fat body, indicating that regulation of GlcCer synthesis by GlcT-1 in the fat body is responsible for regulating energy homeostasis. Both GlcT-1 and p38-ATF2 signaling are evolutionarily conserved, leading us to propose an evolutionary perspective in which GlcT-1 appears to be one of the key factors that control fat metabolism.
Highlights
Glucosylceramide synthase (GlcT-1) catalyzes the synthesis of glucosylceramide (GlcCer), the core structure of major glycosphingolipids (GSLs)
To characterize the function of Drosophila GlcT-1 (dGlcT-1) in the fat body, we first manipulated dGlcT-1 expression in the fat body using a fat body-specific driver, FB-GAL4. This driver enabled us to generate dGlcT-1 transgenic flies that overexpress dGlcT-1 in the fat body
We demonstrated that dGlcT-1 expression levels affect stored nutrient levels, we needed to clarify whether this was due to the amount of GlcCer or due to more-glycosylated GSLs such as mactosylceramide (MacCer)
Summary
Glucosylceramide synthase (GlcT-1) catalyzes the synthesis of glucosylceramide (GlcCer), the core structure of major glycosphingolipids (GSLs). We found that the level of dGlcT-1 expression in the fat body regulates fat and sugar metabolism. Our results suggest that GlcCer itself functions in fat metabolism and that manipulating GlcT-1 expression in mammalian adipose tissue may constitute a therapeutic way to counteract obesity. Drosophila glucosylceramide synthase regulates energy metabolism 1393 Q3 and those that downregulate dGlcT-1 expression in the fat body (see supplementary Fig. II).
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