German Sports University Cologne, Institute of Cardiovascular Research and Sports Medicine, Department of Cellular and Molecular Sports Medicine, Am Sportpark Müngersdorf 6, 50933 Köln, Germany.
Mol Cell Endocrinol. 2013 Sep 5;377(1-2):147-58. doi: 10.1016/j.mce.2013.07.007. Epub 2013 Jul 19.
The molecular mechanisms underlying the effects of selective ER subtype activation on lipogenesis, adipogenesis, lipid utilization and storage as well as glucose metabolism are currently largely unknown and were analyzed in female OVX Wistar rats on a high-fat diet. Rats received estradiol (E2), ER subtype-selective agonists (Alpha and Beta), and genistein (Gen) for 10 weeks. In adipose tissue, treatment with E2, Alpha, and Beta significantly decreased lipogenic (SREBP-1c, FAS) and adipogenic genes (LPL, PPAR gamma). In liver and skeletal muscle of E2-, Alpha-, Beta-, and Gen-treated animals, lipogenesis and triglyceride accumulation were significantly reduced. Increased hepatic and muscular PPAR gamma mRNA expression was observed in untreated, Beta- and Gen-treated animals, which correlates with increased hepatic glucose uptake. However, only untreated animals showed impaired insulin sensitivity compared to all other groups. Therefore, PPAR gamma up-regulation in untreated animals suggests a compensatory mechanism, probably due to increased triglyceride accumulation in non-adipose tissues. Beta- and Gen-treated animals may benefit from the anabolic potency of ER beta that ameliorates lipid and glucose utilization in muscle. Activation of either ER subtype reduces fat enrichment and improves insulin sensitivity. Depending on the investigated tissue, different molecular pathways seem to be involved.
目前,雌激素受体(ER)亚型选择性激活对脂肪生成、脂肪形成、脂质利用和储存以及葡萄糖代谢影响的分子机制在很大程度上尚不清楚,并在高脂肪饮食的去卵巢雌性 Wistar 大鼠中进行了分析。大鼠接受了雌二醇(E2)、ER 亚型选择性激动剂(Alpha 和 Beta)和金雀异黄素(Gen)治疗 10 周。在脂肪组织中,E2、Alpha 和 Beta 的治疗显著降低了脂肪生成(SREBP-1c、FAS)和脂肪形成基因(LPL、PPARγ)。在 E2、Alpha、Beta 和 Gen 治疗动物的肝脏和骨骼肌中,脂肪生成和甘油三酯积累显著减少。未治疗、Beta 和 Gen 治疗动物的肝和肌肉中 PPARγmRNA 表达增加,这与肝葡萄糖摄取增加相关。然而,只有未治疗的动物与所有其他组相比表现出胰岛素敏感性受损。因此,未治疗动物中 PPARγ的上调表明存在代偿机制,可能是由于非脂肪组织中甘油三酯的积累增加所致。Beta 和 Gen 治疗动物可能受益于 ERβ的合成代谢效力,这改善了肌肉中的脂质和葡萄糖利用。两种 ER 亚型的激活都能减少脂肪堆积并改善胰岛素敏感性。根据所研究的组织,似乎涉及不同的分子途径。
