Radial glia in the proliferative ventricular zone of the embryonic and adult turtle, Trachemys scripta elegans.

Neurogenesis (Austin, Tex.) Pub Date : 2014-12-02 eCollection Date: 2014-01-01 DOI:10.4161/23262125.2014.970905
Brian K Clinton, Christopher L Cunningham, Arnold R Kriegstein, Stephen C Noctor, Verónica Martínez-Cerdeño
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引用次数: 24

Abstract

To better understand the role of radial glial (RG) cells in the evolution of the mammalian cerebral cortex, we investigated the role of RG cells in the dorsal cortex and dorsal ventricular ridge of the turtle, Trachemys scripta elegans. Unlike mammals, the glial architecture of adult reptile consists mainly of ependymoradial glia, which share features with mammalian RG cells, and which may contribute to neurogenesis that continues throughout the lifespan of the turtle. To evaluate the morphology and proliferative capacity of ependymoradial glia (here referred to as RG cells) in the dorsal cortex of embryonic and adult turtle, we adapted the cortical electroporation technique, commonly used in rodents, to the turtle telencephalon. Here, we demonstrate the morphological and functional characteristics of RG cells in the developing turtle dorsal cortex. We show that cell division occurs both at the ventricle and away from the ventricle, that RG cells undergo division at the ventricle during neurogenic stages of development, and that mitotic Tbr2+ precursor cells, a hallmark of the mammalian SVZ, are present in the turtle cortex. In the adult turtle, we show that RG cells encompass a morphologically heterogeneous population, particularly in the subpallium where proliferation is most prevalent. One RG subtype is similar to RG cells in the developing mammalian cortex, while 2 other RG subtypes appear to be distinct from those seen in mammal. We propose that the different subtypes of RG cells in the adult turtle perform distinct functions.

Abstract Image

Abstract Image

Abstract Image

胚胎和成年龟脑室增殖性区的放射状胶质细胞。
为了更好地了解径向胶质细胞(RG)在哺乳动物大脑皮层进化中的作用,我们研究了RG细胞在龟背皮层和背脑室脊中的作用。与哺乳动物不同,成年爬行动物的神经胶质结构主要由室管状神经胶质组成,它与哺乳动物的RG细胞具有相同的特征,并且可能有助于在海龟的整个生命周期中持续进行神经发生。为了评估胚胎和成年龟背皮层室内膜神经胶质细胞(这里称为RG细胞)的形态和增殖能力,我们将啮齿类动物常用的皮质电穿孔技术应用于龟端脑。在这里,我们展示了发育中的海龟背皮质RG细胞的形态和功能特征。我们发现细胞分裂发生在脑室和远离脑室的地方,RG细胞在神经发生发育阶段在脑室进行分裂,有丝分裂的Tbr2+前体细胞(哺乳动物SVZ的标志)存在于海龟皮层中。在成年海龟中,我们发现RG细胞包含一个形态异质性的群体,特别是在增殖最普遍的白质下。一种RG亚型与发育中的哺乳动物皮质中的RG细胞相似,而另外两种RG亚型似乎与哺乳动物中的RG细胞不同。我们认为,成年海龟体内不同亚型的RG细胞具有不同的功能。
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