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斑马雀纹状体发育过程中钙结合蛋白的表达及其与 X 区形成的关系

Calbindin expression in developing striatum of zebra finches and its relation to the formation of area X.

机构信息

Department of Animal Behavior, Institute of Biology, Freie Universität Berlin, Berlin, Germany.

出版信息

J Comp Neurol. 2013 Feb 1;521(2):326-41. doi: 10.1002/cne.23174.

DOI:10.1002/cne.23174
PMID:22740434
Abstract

A sexually dimorphic network of brain regions controls learning and production of song in zebra finches. How this specialized song system evolved is unknown. To start addressing this question, we focused on developmental differences between the sexes, using the expression of the calcium-binding protein calbindin (CB) during embryonic to adult stages to map out the early development of Area X, a male-specific striatal structure. We related this pattern to the expression of three transcription factors, Pax6 and Islet1 to delineate the striatal radial domains, and Nkx2.1 as a marker for cells of pallidal origin. An incipient Area X-CB+ domain became discernable at embryonic day 13 in the Islet1-ventral striatal field. This region contained many Nkx2.1-expressing cells with a morphology characteristic of migrating cells. Eight days after hatching (PHD) CB staining clearly delineated Area X. Another CB+ structure formed around PHD5 at the subpallial/pallial boundary. We call it the CB+striatal capsule (CB-StC) and discuss its relation with the previously described striatal capsule in vertebrates. The CB cell population in both Area X and CB-StC, but not in the surrounding striatum, colocalized with the striatal medium spiny neurons (MSNs) marker, D1-receptor associated signaling protein dopamine-and-cAMP-regulated phosphoprotein of 32 kDa, DARPP32. In females, CB-positive cells were also present in the rostral striatum but did not coalesce into an Area X-like structure. We discuss possible reasons for CB expression in MSNs in songbirds and mammals, but not described in chicken striatum.

摘要

性别二态性的脑区网络控制着斑马雀的学习和歌曲的产生。这个专门的歌唱系统是如何进化的还不得而知。为了开始解决这个问题,我们专注于性别之间的发育差异,使用钙结合蛋白 calbindin(CB)在胚胎到成年阶段的表达来描绘雄性特异性纹状体结构 Area X 的早期发育。我们将这种模式与三种转录因子的表达相关联,Pax6 和 Islet1 来描绘纹状体的放射状区域,以及 Nkx2.1 作为来自苍白球的细胞的标志物。在胚胎第 13 天,可以在 Islet1-腹侧纹状体区域中识别出一个初始的 Area X-CB+ 区域。该区域包含许多表达 Nkx2.1 的细胞,具有迁移细胞的形态特征。孵化后 8 天(PHD),CB 染色清楚地区分了 Area X。另一个 CB+结构在 subpallial/pallial 边界处的 PHD5 周围形成。我们称之为 CB+纹状体胶囊(CB-StC),并讨论了它与脊椎动物中先前描述的纹状体胶囊的关系。Area X 和 CB-StC 中的 CB 细胞群体,但不是周围的纹状体,与纹状体中型棘突神经元(MSNs)标志物 D1-受体相关信号蛋白多巴胺和 cAMP 调节的 32kDa 磷酸蛋白 DARPP32 共定位。在雌性中,CB 阳性细胞也存在于前纹状体中,但没有合并成类似于 Area X 的结构。我们讨论了在鸣禽和哺乳动物中 MSNs 中 CB 表达的可能原因,但在鸡纹状体中没有描述。

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