Rapid and local neuroestrogen synthesis supports long-term potentiation of hippocampal Schaffer collaterals-cornu ammonis 1 synapse in ovariectomized mice.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Matthieu J Maroteaux, Claire T Noccioli, Jill M Daniel, Laura A Schrader
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Abstract

In aging women, cognitive decline and increased risk of dementia have been associated with the cessation of ovarian hormones production at menopause. In the brain, presence of the key enzyme aromatase required for the synthesis of 17-β-estradiol (E2) allows for local production of E2 in absence of functional ovaries. Understanding how aromatase activity is regulated could help alleviate the cognitive symptoms. In female rodents, genetic or pharmacological reduction of aromatase activity over extended periods of time impair memory formation, decreases spine density, and hinders long-term potentiation (LTP) in the hippocampus. Conversely, increased excitatory neurotransmission resulting in rapid N-methyl-d-aspartic acid (NMDA) receptor activation rapidly promotes neuroestrogen synthesis. This rapid modulation of aromatase activity led us to address the hypothesis that acute neuroestrogens synthesis is necessary for LTP at the Schaffer collateral-cornu ammonis 1 (CA1) synapse in absence of circulating ovarian estrogens. To test this hypothesis, we did electrophysiological recordings of field excitatory postsynaptic potential (fEPSPs) in hippocampal slices obtained from ovariectomized mice. To assess the impact of neuroestrogens synthesis on LTP, we applied the specific aromatase inhibitor, letrozole, before the induction of LTP with a theta burst stimulation protocol. We found that blocking aromatase activity prevented LTP. Interestingly, exogenous E2 application, while blocking aromatase activity, was not sufficient to recover LTP in our model. Our results indicate the critical importance of rapid, activity-dependent local neuroestrogens synthesis, independent of circulating hormones for hippocampal synaptic plasticity in female rodents.

快速和局部神经雌激素合成支持卵巢切除小鼠海马 Schaffer collaterals-cornu ammonis 1 突触的长期电位。
在老年妇女中,认知能力下降和痴呆症风险增加与绝经期卵巢激素分泌停止有关。在大脑中,合成 17-β-estradiol (E2) 所需的关键酶芳香化酶的存在,使得在没有功能性卵巢的情况下,也能在局部产生 E2。了解如何调节芳香化酶的活性有助于缓解认知症状。在雌性啮齿动物中,通过遗传或药物长期降低芳香化酶的活性会损害记忆的形成,降低脊柱密度,阻碍海马的长期电位(LTP)。相反,N-甲基-d-天冬氨酸(NMDA)受体的快速激活导致兴奋性神经传递增加,从而迅速促进神经雌激素的合成。这种对芳香化酶活性的快速调节促使我们提出了一个假设,即在缺乏循环卵巢雌激素的情况下,急性神经雌激素合成是沙弗侧索-角氨1(CA1)突触 LTP 的必要条件。为了验证这一假设,我们对卵巢切除小鼠的海马切片进行了场兴奋突触后电位(fEPSPs)的电生理记录。为了评估神经雌激素合成对LTP的影响,我们在使用θ脉冲刺激方案诱导LTP之前使用了特异性芳香化酶抑制剂来曲唑。我们发现,阻断芳香化酶的活性可以阻止LTP。有趣的是,在阻断芳香化酶活性的同时,应用外源性E2不足以恢复模型中的LTP。我们的研究结果表明,对于雌性啮齿类动物的海马突触可塑性而言,快速、依赖于活动的局部神经雌激素合成至关重要,它与循环激素无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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