雌酮介导的 ROS 和 NOX4 降低作用可改善卵巢切除腰果大鼠的内皮功能

Thiago S. Oliveira, Hericles M. Campos, Rafael M. Costa, Raphaela C. Georg, Jacqueline A. Leite, Rita C. Tostes, Elson A. Costa, Fernanda Cristina A. Santos, Núbia S. Lobato, Fernando P. Filgueira, Paulo César Ghedini
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摘要

雌酮(E1)是口服共轭马雌激素(CEE)的主要成分,也是绝经后女性血液循环中的主要雌激素前体。E1 可诱导内皮依赖性血管扩张并激活 PI3K/NO/cGMP 信号传导。为了评估 E1 是否能缓解与绝经后相关的血管功能障碍并探索其潜在机制,我们研究了 E1 对绝经后实验模型卵巢切除(OVX)大鼠血管的影响。我们使用尾袖褶式压力计测量血压,并分离主动脉环以评估其对苯肾上腺素、乙酰胆碱(ACh)和硝普钠的反应。还评估了预先用超氧化物歧化酶(SOD)、过氧化氢酶(CAT)或阿朴西宁孵育的主动脉环对 ACh 的反应。通过 Western 印迹法测定了 SOD、CAT、NOX1、NOX2 和 NOX4 的蛋白表达。E1治疗可降低OVX组的体重和腹膜后脂肪,增加子宫重量,并防止血压升高。此外,E1 还改善了内皮依赖的 ACh 血管扩张,激活了代偿性抗氧化机制,即提高了 SOD 和 CAT 抗氧化酶的活性,并降低了 NOX4 的表达。这反过来又有助于防止 OVX 大鼠的氧化应激和内皮功能障碍。此外,E1 治疗还能逆转在卵巢切除组中观察到的低密度脂蛋白总胆固醇的增加。这些发现强调了 E1 对心血管系统的保护作用,它能抵消与 OVX 有关的氧化应激和 Wistar 大鼠的内皮功能障碍。E1 对管理心血管健康,尤其是绝经后的心血管健康具有良好的治疗效果。
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Estrone-mediated lowering of ROS and NOX4 improves endothelial function in ovariectomized wistar rats

Estrone (E1) constitutes the primary component in oral conjugated equine estrogens (CEEs) and serves as the principal estrogen precursor in the female circulation in the post-menopause. E1 induces endothelium-dependent vasodilation and activate PI3K/NO/cGMP signaling. To assess whether E1 mitigates vascular dysfunction associated with postmenopause and explore the underlying mechanisms, we examined the vascular effects of E1 in ovariectomized (OVX) rats, a postmenopausal experimental model. Blood pressure was measured using tail-cuff plethysmography, and aortic rings were isolated to assess responses to phenylephrine, acetylcholine (ACh), and sodium nitroprusside. Responses to ACh in rings pre-incubated with superoxide dismutase (SOD), catalase (CAT), or apocynin were also evaluated. Protein expression of SOD, CAT, NOX1, NOX2, and NOX4 was determined by Western blotting. E1 treatment resulted in decreased body weight and retroperitoneal fat, increased uterine weight, and prevented elevated blood pressure in the OVX group. Furthermore, E1 improved endothelium-dependent ACh vasodilation, activated compensatory antioxidant mechanisms – i.e. increased SOD and CAT antioxidant enzymes activity, and decreased NOX4 expression. This, in turn, helped prevent oxidative stress and endothelial dysfunction in OVX rats. Additionally, E1 treatment reversed the increased total LDL cholesterol observed in the OVX group. The findings underscore protective effects of E1 on the cardiovascular system, counteracting OVX-related oxidative stress and endothelial dysfunction in Wistar rats. E1 exhibits promising therapeutic benefits for managing cardiovascular health, particularly in postmenopausal conditions.

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