揭示雌激素对海马体功能影响的机制。
Uncovering the mechanisms of estrogen effects on hippocampal function.
作者信息
Spencer Joanna L, Waters Elizabeth M, Romeo Russell D, Wood Gwendolyn E, Milner Teresa A, McEwen Bruce S
机构信息
Harold and Margaret Milliken Hatch Laboratory of Neuroendocrinology, The Rockefeller University, 1300 York Avenue, New York, NY 10065, USA.
出版信息
Front Neuroendocrinol. 2008 May;29(2):219-37. doi: 10.1016/j.yfrne.2007.08.006. Epub 2007 Oct 15.
Abstract
Estrogens have direct effects on the brain areas controlling cognition. One of the most studied of these regions is the dorsal hippocampal formation, which governs the formation of spatial and episodic memories. In laboratory animals, most investigators report that estrogen enhances synaptic plasticity and improves performance on hippocampal-dependent cognitive behaviors. This review summarizes work conducted in our laboratory and others toward identifying estrogen's actions in the hippocampal formation, and the mechanisms for these actions. Physiologic and pharmacologic estrogen affects cognitive behavior in mammals, which may be applicable to human health and disease. The effects of estrogen in the hippocampal formation that lead to modulation of hippocampal function include effects on cell morphology, synapse formation, signaling, and excitability that have been studied in laboratory mice, rats, and primates. Finally, estrogen may signal through both nuclear and extranuclear hippocampal estrogen receptors to achieve its downstream effects.
摘要
雌激素对控制认知的脑区有直接影响。其中研究最多的区域之一是背侧海马结构,它掌管空间记忆和情景记忆的形成。在实验动物中,大多数研究人员报告称,雌激素可增强突触可塑性,并改善依赖海马体的认知行为表现。本综述总结了我们实验室及其他实验室在确定雌激素在海马结构中的作用及其作用机制方面所开展的工作。生理和药理雌激素会影响哺乳动物的认知行为,这可能适用于人类健康和疾病。雌激素在海马结构中导致海马功能调节的作用包括对细胞形态、突触形成、信号传导和兴奋性的影响,这些影响已在实验室小鼠、大鼠和灵长类动物中得到研究。最后,雌激素可能通过核内和核外海马雌激素受体发出信号,以实现其下游效应。
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