分拣连接蛋白 2 和雄激素受体在幼年斑马雀鸣系统中的共定位。
Co-localization of sorting nexin 2 and androgen receptor in the song system of juvenile zebra finches.
机构信息
Department of Psychology, Michigan State University, East Lansing, MI 48824-1101, USA.
出版信息
Brain Res. 2010 Jul 9;1343:104-11. doi: 10.1016/j.brainres.2010.04.084. Epub 2010 May 7.
Abstract
Mechanisms regulating sexual differentiation of the zebra finch song system appear to include both genetic and hormonal factors. Sorting Nexin 2 (SNX2), which is involved in trafficking proteins between cellular membranes, and androgen receptor (AR) mRNA are both increased in song control nuclei of juvenile males compared to females. Here, in situ hybridization for SNX2 and immunohistochemistry for AR were used to evaluate these sexual dimorphisms in more detail. Estimates of the total number of HVC cells expressing SNX2 and AR, individually as well as together, were greater in 25-day-old males compared to females. The densities of these types of cells were generally also increased in males compared to females in HVC and Area X (or the equivalent portion of the medial striatum in females). On average, more than half of the AR+ cells co-expressed SNX2 in both brain regions. The potential, therefore, exists for both AR and SNX2 to be involved in masculinization of these two brain regions. One possibility is that they, either separately or in conjunction, enhance the action of trophic factors within the brain.
摘要
调节斑马雀鸣禽系统性分化的机制似乎包括遗传和激素因素。参与跨细胞膜蛋白运输的分选连接蛋白 2(Sorting Nexin 2,SNX2)和雄激素受体(androgen receptor,AR)mRNA 在雄性幼鸟的鸣禽控制核中均比雌性增加。在这里,通过原位杂交和 AR 免疫组织化学评估了这些性二态性的细节。单独以及共同表达 SNX2 和 AR 的 HVC 细胞总数在 25 天大的雄性中比雌性更高。这些细胞类型的密度在 HVC 和 Area X(或雌性中内侧纹状体的等效部分)中通常也在雄性中比雌性更高。平均而言,超过一半的 AR+细胞在这两个脑区中共同表达 SNX2。因此,AR 和 SNX2 有可能参与这两个脑区的雄性化。一种可能性是它们单独或联合增强了脑内营养因子的作用。
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