金丝雀大脑中雄激素受体、雌激素受体和芳香化酶的季节性表达与循环雄激素和雌激素的关系。

Journal of neurobiology Pub Date : 2000-06-05
L Fusani, T Van't Hof, J B Hutchison, M Gahr
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引用次数: 0

摘要

鸣禽有一个复杂的神经网络来学习和鸣叫,即神经鸣叫系统。歌唱系统的几个核含有雄激素受体(AR),新纹状核HVc也含有α型雌激素受体(ER)。许多鸣禽在鸣叫和神经鸣叫系统上都表现出季节性变化,这与性腺类固醇循环水平的季节性变化有关。然而,越来越多的证据表明,歌唱系统对性腺类固醇的敏感性也会随季节而变化。这可能涉及类固醇受体和类固醇代谢酶的表达和活性的变化,如雌激素合成酶芳香化酶(AROM)。在同一只鸣禽中,大脑AR、ER和AROM的季节性调节尚未被研究过。在这项工作中,我们比较了雄性金丝雀在秋季(11月)和春季(4月)高歌唱活动期间的血浆雄激素和雌激素水平,远脑AR-, ER-和AROM- mrna的表达水平以及大脑AROM活动。血浆中雄激素和雌激素的水平在4月份高于11月份。ER在HVc中的表达水平在11月高于4月。相反,AROM在尾侧新纹状体的表达量在4月份高于11月份。然而,我们发现AR的表达水平和HVc的体积没有季节性差异,以AR表达为界。因此,AR在HVc中的表达与循环雄激素水平无关。本研究表明,激素依赖性和非依赖性季节性因素均可调节性腺激素对歌唱系统的作用。此外,我们还报道了鸣禽脑界面核中AROM的新表达位点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Seasonal expression of androgen receptors, estrogen receptors, and aromatase in the canary brain in relation to circulating androgens and estrogens.

Songbirds have a complex neural network for learning and production of song, namely the neural song system. Several nuclei of the song system contain androgen receptors (AR), and the neostriatal nucleus HVc also contains alpha type estrogen receptors (ER). Many songbird species show seasonal changes in both song and the neural song system that are correlated with seasonal variations in the circulating levels of gonadal steroids. However, there is increasing evidence that the sensitivity of the song system to gonadal steroids also changes seasonally. This could involve changes in the expression and activity of steroid receptors and steroid-metabolizing enzymes, such as the estrogen-synthesizing enzyme aromatase (AROM). The seasonal regulation of brain AR, ER, and AROM has not been studied before in the same individual songbirds. In this work, we compared plasma levels of androgens and estrogens, the expression level of AR-, ER-, and AROM-mRNA in the telencephalon, and brain AROM activity in male canaries between autumn (November) and spring (April) periods of high singing activity. Plasma levels of androgens and estrogens were higher in April than in November. The expression level of ER in HVc was higher in November than in April. In contrast, the expression level of AROM in the caudomedial neostriatum was higher in April than in November. However, we found no seasonal differences in the level of expression of AR and the volume of HVc as delimited by AR expression. Thus, AR expression in HVc was not correlated with circulating androgen levels. This study shows that both steroid-dependent and -independent seasonal factors regulate the action of gonadal hormones on the song system. In addition, we report a new site of AROM expression in the songbird brain, the nucleus interfacialis.

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