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雌激素反应元件非依赖性信号传导部分恢复了卵巢切除术后的体重增加,但不足以使17β-雌二醇控制能量稳态。

Estrogen response element-independent signaling partially restores post-ovariectomy body weight gain but is not sufficient for 17β-estradiol's control of energy homeostasis.

作者信息

Mamounis Kyle J, Yang Jennifer A, Yasrebi Ali, Roepke Troy A

机构信息

Department of Animal Sciences, School of Environmental and Biological Sciences, Rutgers University, New Brunswick, NJ 08901, USA.

Department of Animal Sciences, School of Environmental and Biological Sciences, Rutgers University, New Brunswick, NJ 08901, USA.

出版信息

Steroids. 2014 Mar;81:88-98. doi: 10.1016/j.steroids.2013.10.018. Epub 2013 Nov 16.

DOI:10.1016/j.steroids.2013.10.018
PMID:24252383
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3947695/
Abstract

The steroid 17β-estradiol (E2) modulates energy homeostasis by reducing feeding behavior and increasing energy expenditure primarily through estrogen receptor α (ERα)-mediated mechanisms. Intact ERαKO female mice develop obesity as adults exhibiting decreased energy expenditure and increased fat deposition. However, intact transgenic female mice expressing a DNA-binding-deficient ERα (KIKO) are not obese and have similar energy expenditure, activity and fat deposition as to wild type (WT) females, suggesting that non-estrogen response element (ERE)-mediated signaling is important in E2 regulation of energy homeostasis. Initial reports did not examine the effects of ovariectomy on energy homeostasis or E2's attenuation of post-ovariectomy body weight gain. Therefore, we sought to determine if low physiological doses of E2 (250 ng QOD) known to suppress post-ovariectomy body weight gain in WT females would suppress body weight gain in ovariectomized KIKO females. We observed that the post-ovariectomy increase in body weight was significantly greater in WT females than in KIKO females. Furthermore, E2 did not significantly attenuate the body weight gain in KIKO females as it did in WT females. E2 replacement suppressed food intake and fat accumulation while increasing nighttime oxygen consumption and activity only in WT females. E2 replacement also increased arcuate POMC gene expression in WT females only. These data suggest that in the intact female, ERE-independent mechanisms are sufficient to maintain normal energy homeostasis and to partially restore the normal response to ovariectomy. However, they are not sufficient for E2's suppression of post-ovariectomy body weight gain and its effects on metabolism and activity.

摘要

类固醇17β-雌二醇(E2)主要通过雌激素受体α(ERα)介导的机制来调节能量平衡,减少摄食行为并增加能量消耗。完整的ERα基因敲除(ERαKO)雌性小鼠成年后会出现肥胖,表现为能量消耗减少和脂肪沉积增加。然而,表达DNA结合缺陷型ERα(KIKO)的完整转基因雌性小鼠并不肥胖,其能量消耗、活动量和脂肪沉积与野生型(WT)雌性小鼠相似,这表明非雌激素反应元件(ERE)介导的信号传导在E2对能量平衡的调节中很重要。最初的报告并未研究卵巢切除对能量平衡的影响或E2对卵巢切除术后体重增加的减轻作用。因此,我们试图确定已知能抑制WT雌性小鼠卵巢切除术后体重增加的低生理剂量E2(每两日250 ng)是否会抑制卵巢切除的KIKO雌性小鼠的体重增加。我们观察到,卵巢切除术后WT雌性小鼠的体重增加明显大于KIKO雌性小鼠。此外,E2并未像在WT雌性小鼠中那样显著减轻KIKO雌性小鼠的体重增加。E2替代仅在WT雌性小鼠中抑制了食物摄入和脂肪积累,同时增加了夜间耗氧量和活动量。E2替代也仅在WT雌性小鼠中增加了弓状核POMC基因的表达。这些数据表明,在完整雌性小鼠中,不依赖ERE的机制足以维持正常的能量平衡,并部分恢复对卵巢切除的正常反应。然而,它们不足以使E2抑制卵巢切除术后的体重增加及其对代谢和活动的影响。

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