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通过比较基因表达谱分析和染料注射分析对腔隙神经元进行表征。

Characterization of claustral neurons by comparative gene expression profiling and dye-injection analyses.

机构信息

Division of Brain Biology, National Institute for Basic Biology Okazaki, Japan ; Department of Basic Biology, The Graduate University for Advanced Studies (Sokendai) Hayama, Japan.

Division of Brain Biology, National Institute for Basic Biology Okazaki, Japan.

出版信息

Front Syst Neurosci. 2014 May 23;8:98. doi: 10.3389/fnsys.2014.00098. eCollection 2014.

DOI:10.3389/fnsys.2014.00098
PMID:24904319
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4033163/
Abstract

The identity of the claustrum as a part of cerebral cortex, and in particular of the adjacent insular cortex, has been investigated by connectivity features and patterns of gene expression. In the present paper, we mapped the cortical and claustral expression of several cortical genes in rodent and macaque monkey brains (nurr1, latexin, cux2, and netrinG2) to further assess shared features between cortex and claustrum. In mice, these genes were densely expressed in the claustrum, but very sparsely in the cortex and not present in the striatum. To test whether the cortical vs. claustral cell types can be distinguished by co-expression of these genes, we performed a panel of double ISH in mouse and macaque brain. NetrinG2 and nurr1 genes were co-expressed across entire cortex and claustrum, but cux2 and nurr1 were co-expressed only in the insular cortex and claustrum. Latexin was expressed, in the macaque, only in the claustrum. The nurr1 (+) claustral neurons expressed VGluT1, a marker for cortical glutamatergic cells and send cortical projections. Taken together, our data suggest a partial commonality between claustral neurons and a subtype of cortical neurons in the monkey brain. Moreover, in the embryonic (E110) macaque brain, many nurr1 (+) neurons were scattered in the white matter between the claustrum and the insular cortex, possibly representing their migratory history. In a second set of experiments, we injected Lucifer Yellow intracellularly in mouse and rat slices to investigate whether dendrites of insular and claustral neurons can cross the border of the two brain regions. Dendrites of claustral neurons did not invade the overlying insular territory. In summary, gene expression profile of the claustrum is similar to that of the neocortex, in both rodent and macaque brains, but with modifications in density of expression and cellular co-localization of specific genes.

摘要

作为大脑皮层的一部分,特别是与相邻的脑岛皮层的连接特征和基因表达模式,已经对屏状核的身份进行了研究。在本文中,我们在啮齿动物和猕猴大脑中绘制了几种皮层基因(nurr1、latexin、cux2 和 netrinG2)的皮层和屏状核表达图谱,以进一步评估皮层和屏状核之间的共同特征。在小鼠中,这些基因在屏状核中高度表达,但在皮层中非常稀疏,在纹状体中不存在。为了测试这些基因的共表达是否可以区分皮层与屏状核的细胞类型,我们在小鼠和猕猴大脑中进行了一组双重原位杂交。netrinG2 和 nurr1 基因在整个皮层和屏状核中均有共表达,但 cux2 和 nurr1 仅在脑岛皮层和屏状核中有共表达。latexin 在猕猴中仅在屏状核中表达。nurr1(+)屏状核神经元表达 VGluT1,这是一种皮质谷氨酸能细胞的标志物,并发出皮质投射。总之,我们的数据表明,猴脑中屏状核神经元与皮质神经元的一个亚型之间存在部分共性。此外,在胚胎期(E110)的猕猴大脑中,许多 nurr1(+)神经元散在于屏状核和脑岛之间的白质中,可能代表它们的迁移史。在第二组实验中,我们将 Lucifer Yellow 细胞内注射到小鼠和大鼠切片中,以研究脑岛和屏状核神经元的树突是否可以跨越两个脑区的边界。屏状核神经元的树突没有侵入上面的脑岛区域。总之,在啮齿动物和猕猴大脑中,屏状核的基因表达谱与新皮层相似,但在表达密度和特定基因的细胞共定位方面存在差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47b9/4033163/e1a334185a5e/fnsys-08-00098-g0009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47b9/4033163/54c48104ed4b/fnsys-08-00098-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47b9/4033163/d492d4d4d464/fnsys-08-00098-g0006.jpg
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