The transcription of genes encoding proteins involved in the hepatic synthesis of lipids from glucose is strongly stimulated by carbohydrate feeding. It is now well established that in the liver, glucose is the main activator of the expression of this group of genes, with insulin having only a permissive role. While ADD1/ SREBP-1 has been implicated in lipogenic gene expression through temporal association with food intake and ectopic gain-of-function experiments, no genetic evidence for a requirement for this factor in glucose-mediated gene expression has been established. We show here that the transcription of ADD1/SREBP-1c in primary cultures of hepatocytes is controlled positively by insulin and negatively by glucagon and cyclic AMP, establishing a link between this transcription factor and carbohydrate availability. Using adenovirus-mediated transfection of a powerful dominant negative form of ADD1/SREBP-1c in rat hepatocytes, we demonstrate that this factor is absolutely necessary for the stimulation by glucose of L-pyruvate kinase, fatty acid synthase, S14, and acetyl coenzyme A carboxylase gene expression. These results demonstrate that ADD1/SREBP-1c plays a crucial role in mediating the expression of lipogenic genes induced by glucose and insulin.
We have investigated the targeting of caveolin to lipid bodies in adipocytes that express high levels of caveolins and contain well-developed lipid droplets. We observed that the lipid droplets isolated from adipocytes of caveolin-1 knock out mice contained dramatically reduced levels of cholesterol, indicating that caveolin is required for maintaining the cholesterol content of this organelle. Analysis of caveolin distribution by cell fractionation and fluorescent light microscopy in 3T3-L1 adipocytes indicated that addition of cholesterol rapidly stimulated translocation of caveolin to lipid droplets. The cholesterol-induced trafficking of caveolins to lipid droplets was shown to be dynamin- and protein kinase C (PKC)-dependent and modulated by src tyrosine kinase activation, suggesting a role for caveolar endocytosis in this novel trafficking pathway. Consistent with this, caveolae budding was stimulated by cholesterol addition. The present data identify lipid droplets as potential target organelles for caveolar endocytosis and demonstrate a role for caveolin-1 in the maintenance of free cholesterol levels in adipocyte lipid droplets.
Elevated lipogenesis is a key determinant of exaggerated fat deposition in adipose tissue of obese Zucker rats. We previously delineated a region in the fatty-acid synthase promoter, which was responsible for obesityrelated overexpression of the fatty-acid synthase (FAS) gene, by negatively regulating the activity of the downstream promoter in lean but not obese rat fat cells. The present study aimed to identify the transcriptional factors acting on this target region. First, functional analysis of mutated FAS promoter constructs in transiently transfected lean and obese rat adipocytes showed that the activity of the obesity-related region relied on the presence of a transcriptionally inactive sterol regulatory element at ؊150, which counteracted activation through the downstream E-box. Adenovirus-mediated overexpression of a dominant negative form of adipocyte determination and differentiation factor 1 (ADD1) was used to neutralize endogenous ADD1/ sterol regulatory element-binding protein (SREBP) transcriptional activity in fat cells, by producing inactive dimers unable to bind target DNA. With this system, we observed that overexpression of FAS in obese rat adipocytes was ADD1/SREBP-dependent. SREBP isoforms expression was assessed in lean and obese rat fat cells and showed no differences in the level of ADD1/SREBP1 mRNA. In addition, equivalent amounts of immunoreactive ADD1/ SREBP1 were found in nuclear extracts from lean and obese rat fat cells. In contrast, immunoreactive SREBP2, which was very low in nuclear extracts from lean rats, was induced in obese rat fat cells. Finally, using in vitro binding studies, we showed that SREBP2 was able to displace ADD1/SREBP1 binding from the sterol regulatory element (SRE) site. Thus, we propose a mechanism for obesity-related overexpression of FAS gene in rat adipocyte. ADD1/SREBP1-activated transcription proceeding from the E-box motif is counterbalanced by a negative SRE site acting by limiting the availability of ADD1/SREBP1 in normal fat cells. The negative effect of this site is abolished in obese rat adipocyte nuclei where SREBP2 is induced and can substitute for ADD1/ SREBP1 binding to the inactive SRE. These results provide evidence for the implication of SREBPs in the dysregulation of adipocyte metabolism characteristic of the obese state.
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