雌激素预处理:减少缺血性脑炎症的一个有希望的策略。

Conditioning medicine Pub Date : 2019-01-01 Epub Date: 2019-06-30
Juan Pablo de Rivero Vaccari, Helen M Bramlett, Miguel A Perez-Pinzon, Ami P Raval
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引用次数: 0

摘要

在女性绝经前的生活阶段,雌激素可以自然地防止缺血性脑损伤及其认知能力下降的衰弱后果。然而,绝经期雌激素的下降会成倍增加女性脑缺血的风险及其严重程度。在绝经期间补充雌激素是减少这种增加的脑缺血风险的最合理的解决方案;然而,持续治疗已被证明是禁忌症。在过去的十年里,我们实验室的研究表明,在缺血前两天单次或长期定期给予17β-雌二醇治疗,可以模拟缺血预适应,从而保护卵巢切除或生殖衰老的雌性大鼠的大脑。这些研究还表明,17β-雌二醇诱导的预处理(EPC)需要雌激素受体(ER)-亚型β (ER-β)激活。ER-β在整个大脑中表达,包括海马体,它在学习和记忆中起着关键作用。由于ER-β的周期性激活可以减轻雌性去卵巢大鼠缺血后的认知能力下降,因此可以推测EPC具有减少雌性去卵巢大鼠缺血后损伤和认知能力下降的潜力。雌激素是关键的抗炎剂;因此,本文将讨论EPC对炎性小体的影响。此外,正如我们现在清楚地知道的那样,男性和女性的大脑活动是不同的。事实上,包括脑缺血在内的神经退行性疾病和药理学药物以不同的方式影响男性和女性。因此,鉴于美国国立卫生研究院和卒中治疗学术行业圆桌会议(STAIR)联盟要求纳入雌性实验动物,本综述还讨论了在未来研究脑缺血雌性动物模型中EPC的知识差距的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Estrogen preconditioning: A promising strategy to reduce inflammation in the ischemic brain.

Estrogen preconditioning: A promising strategy to reduce inflammation in the ischemic brain.

Estrogen preconditioning: A promising strategy to reduce inflammation in the ischemic brain.

During the premenopausal phase of a woman's life, estrogen naturally protects against ischemic brain damage and its debilitating consequence of cognitive decline. However, the decline in estrogen at menopause exponentially increases a women's risk for cerebral ischemia and its severity. Supplementation of estrogen during menopause is the most logical solution to abate this increased risk for cerebral ischemia; however, continuous therapy has proven to be contraindicative. Studies from our laboratory over the past decade have shown that a single bolus or long-term periodic 17β-estradiol treatment(s) two days prior to ischemia mimics ischemic preconditioning-conferred protection of the brain in ovariectomized or reproductively senescent female rats. These studies also demonstrated that 17β-estradiol-induced preconditioning (EPC) requires estrogen receptor (ER)-subtype beta (ER-β) activation. ER-β is expressed throughout the brain, including in the hippocampus, which plays a key role in learning and memory. Because periodic activation of ER-β mitigates post-ischemic cognitive decline in ovariectomized female rats, it can be surmised that EPC has the potential to reduce post-ischemic damage and cognitive decline in females. Estrogens are key anti-inflammatory agents; therefore this review discusses the effects of EPC on the inflammasome. Furthermore, as we now clearly know, the brain acts differently in males and females. Indeed, neurodegenerative diseases, including cerebral ischemia, and pharmacological drugs affect males and females in different ways. Thus, inasmuch as the National Institutes of Health and the Stroke Treatment Academic Industry Roundtable (STAIR) consortium mandate inclusion of female experimental animals, this review also discusses the need to close the gap in our knowledge in future studies of EPC in female animal models of cerebral ischemia.

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