We present a large portion of the transcriptome of Zea mays, including ESTs representing 484,032 cDNA clones from 53 libraries and 36,565 fully sequenced cDNA clones, out of which 31,552 clones are non-redundant. These and other previously sequenced transcripts have been aligned with available genome sequences and have provided new insights into the characteristics of gene structures and promoters within this major crop species.
Obesity is prevalent worldwide, and is highly associated with metabolic disorders, such as insulin resistance, hyperlipidemia and steatosis. Ginseng has been used as food and traditional herbal medicine for the treatment of various metabolic diseases. However, the molecular mechanisms how ginseng and its components participate in the regulation of lipogenesis are still largely unclear. Here, we identified that protopanaxatriol (PPT), a major ginseng constituent, inhibited rosiglitazone-supported adipocyte differentiation of 3T3-L1 cells by repressing the expression of lipogenesis-related gene expression. In high-fat diet-induced obesity (DIO) mice, PPT reduced body weight and serum lipid levels, improved insulin resistance, as well as morphology and lipid accumulation, particular macrovesicular steatosis, in the livers. These effects were confirmed with genetically obese ob/ob mice. A reporter gene assay showed that PPT specifically inhibited the transactivity of PPARγ, but not PPAR α, β/δ and LXR α, β. TR-FRET assay revealed that PPT was specifically bound to PPARγ LBD, which was further confirmed by the molecular docking study. Our data demonstrate that PPT is a novel PPARγ antagonist. The inhibition of PPARγ activity could be a promising therapy for obesity and steatosis. Our findings shed new light on the mechanism of ginseng in the treatment of metabolic syndrome.
Apolipoprotein E (apoE), an apoprotein involved in lipid transport in both the plasma and within the brain, mediates the binding of lipoproteins to members of the low density lipoprotein (LDL) receptor family including the LDL receptor and the LDL receptor-related protein (LRP). ApoE/LRP interactions may be particularly important in brain where both are expressed at high levels, and polymorphisms in the apoE and LRP genes have been linked to AD. To date, only apoE-enriched lipoproteins have been shown to be LRP ligands. To investigate further whether other, more lipid-poor forms of apoE interact with LRP, we tested whether lipid-free apoE in the absence of lipoprotein particles interacts with its cell-surface receptors. No detectable lipid was found associated with bacterially expressed and purified apoE either prior to or following incubation with cells when analyzed by electrospray ionization mass spectrometry. We found that the degradation of lipid-poor (125)I-apoE was significantly higher in wild type as compared to LRP-deficient cells, and was inhibited by receptor-associated protein (RAP). In contrast, (125)I-apoE-enriched beta-VLDL was degraded by both LRP and the LDL receptor. When analyzed via a single cycle of endocytosis, (125)I-apoE was internalized prior to its subsequent intracellular degradation with kinetics typical of receptor-mediated endocytosis. Thus, we conclude that a very lipid-poor form of apoE can be catabolized via cell surface LRP, suggesting that the conformation of apoE necessary for recognition by LRP can be imposed by situations other than an apoE-enriched lipoprotein.
Studies on peroxisome proliferator-activated receptor (PPAR)-γ ligands have been focused on agonists. However, PPARγ activation may induce obesity and nonalcoholic fatty liver disease (NAFLD), one of the most challenging medical conditions. Here, we identified that isorhamnetin, a naturally occurring compound in fruits and vegetables and the metabolite of quercetin, is a novel antagonist of PPARγ. Isorhamnetin treatment inhibited the adipocyte differentiation induced by the PPARγ agonist rosiglitazone, reduced obesity development and ameliorated hepatic steatosis induced by both high-fat diet treatment and leptin deficiency. Our results suggest that dietary supplement of isorhamnetin may be beneficial to prevent obesity and steatosis and PPARγ antagonists may be useful to treat hepatic steatosis.
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