Entopallium Lost GFAP Immunoreactivity during Avian Evolution: Is GFAP a "Condition Sine Qua Non"?

IF 2.1 4区心理学 Q3 BEHAVIORAL SCIENCES

Brain Behavior and Evolution Pub Date : 2023-01-01 Epub Date: 2023-12-09 DOI:10.1159/000535281

Mihály Kálmán, Olivér M Sebők

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引用次数: 0

Abstract

Introduction: The present study demonstrates that in the same brain area the astroglia can express GFAP (the main cytoskeletal protein of astroglia) in some species but not in the others of the same vertebrate class. It contrasts the former opinions that the distribution of GFAP found in a species is characteristic of the entire class. The present study investigated birds in different phylogenetic positions: duck (Cairina moschata domestica), chicken (Gallus gallus domesticus), and quails (Coturnix japonica and Excalfactoria chinensis) of Galloanserae; pigeon (Columba livia domestica) of a group of Neoaves, in comparison with representatives of other Neoaves lineages, which emerged more recently in evolution: finches (Taeniopygia guttata and Erythrura gouldiae), magpie (Pica pica), and parrots (Melopsittacus undulatus and Nymphicus hollandicus).

Methods: Following a perfusion with 4% buffered paraformaldehyde, immunoperoxidase reactions were performed with two types of anti-GFAP: monoclonal and polyclonal, on floating sections.

Results: The entopallium (formerly "ectostriatum," a telencephalic area in birds) was GFAP-immunopositive in pigeon and in the representatives of Galloanserae but not in songbirds and parrots, which emerged more recently in evolution. The lack of GFAP expression of a brain area, however, does not mean the lack of astroglia. Lesions induced GFAP expression in the territory of GFAP-immunonegative entopallia. It proved that the GFAP immunonegativity is not due to the lack of capability, but rather the suppression of GFAP production of the astrocytes in this territory. In the other areas investigated besides the entopallium (optic tectum and cerebellum), no considerable interspecific differences of GFAP immunopositivity were found. It proved that the immunonegativity of entopallium is due to neither the general lack of GFAP expression nor the incapability of our reagents to detect GFAP in these species.

Conclusion: The data are congruent with our proposal that a lack of GFAP expression has evolved in different brain areas in vertebrate evolution, typically in lineages that emerged more recently. Comparative studies on GFAP-immunopositive and GFAP-immunonegative entopallia may promote understanding the role of GFAP in neural networks.

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鸟类进化过程中内脏失去了 GFAP 免疫反应--GFAP 是 "必要条件 "吗？

本研究表明，在同一脑区，某些物种的星形胶质细胞能表达 GFAP（星形胶质细胞的主要细胞骨架蛋白），而同一脊椎动物类别的其他物种则不能。这与以前认为在一个物种中发现的 GFAP 的分布是整个类的特征的观点形成了鲜明对比。本研究对处于不同系统发育位置的鸟类进行了调查：鸭科（Cairina moschata domestica）、鸡科（Gallus gallus domesticus）和鹌鹑科（Coturnix japonica 和 Excalfactoria chinensis）；鸽科（Columba livia domestica）属于 Neoaves 类，与其他 Neoaves 系的代表相比，后者出现的时间更晚：雀类（Taeniopygia guttata 和 Erythrura gouldiae）、喜鹊（Pica pica）和鹦鹉（Melopsittacus undulatus 和 Nymphicus hollandicus）。.用 4% 的缓冲多聚甲醛灌注后，在浮动切片上用两种类型的抗 GFAP（单克隆和多克隆）进行免疫过氧化物酶反应。在鸽子和Galloanserae的代表鸟类中，entopallium（以前的 "ectostriatum"，鸟类的端脑区域）的GFAP免疫阳性，而在鸣禽和鹦鹉中则没有，因为鸣禽和鹦鹉在进化过程中出现较晚。然而，脑区缺乏 GFAP 表达并不意味着缺乏星形胶质细胞。病变诱导了 GFAP 免疫阴性的内胼胝体区域的 GFAP 表达。这证明 GFAP 免疫阴性并不是因为缺乏能力，而是因为该区域的星形胶质细胞抑制了 GFAP 的产生。在除内胼胝体以外的其他研究区域（视神经和小脑），GFAP 免疫阳性率没有发现明显的种间差异。这证明内胼胝体的免疫阴性既不是因为这些物种普遍缺乏 GFAP 表达，也不是因为我们的试剂无法检测 GFAP。这些数据与我们的提议一致[Kálmán，2002，Brain Res. Bull. 57:509]，即在脊椎动物进化过程中，GFAP表达的缺乏在不同的脑区发生了进化，通常发生在最近出现的品系中。对GFAP免疫阳性和阴性内胼胝体的比较研究可能有助于理解GFAP在神经网络中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Brain Behavior and Evolution 医学-行为科学

CiteScore

3.10

自引率

23.50%

发文量

审稿时长

>12 weeks

期刊介绍： ''Brain, Behavior and Evolution'' is a journal with a loyal following, high standards, and a unique profile as the main outlet for the continuing scientific discourse on nervous system evolution. The journal publishes comparative neurobiological studies that focus on nervous system structure, function, or development in vertebrates as well as invertebrates. Approaches range from the molecular over the anatomical and physiological to the behavioral. Despite this diversity, most papers published in ''Brain, Behavior and Evolution'' include an evolutionary angle, at least in the discussion, and focus on neural mechanisms or phenomena. Some purely behavioral research may be within the journal’s scope, but the suitability of such manuscripts will be assessed on a case-by-case basis. The journal also publishes review articles that provide critical overviews of current topics in evolutionary neurobiology.