Loss of nervous system complexity – Morphological analyses shed light on the neuronal evolution in Myzostomida (Annelida)

IF 1.1 4区 生物学 Q4 ANATOMY & MORPHOLOGY Acta Zoologica Pub Date : 2022-11-20 DOI:10.1111/azo.12447
Patrick Beckers, Tobias Gebhardt, Conrad Helm
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Abstract

Myzostomida are putatively nested within the errant Annelida and exhibit a unique morphology. The latter fact might possibly be related to their long host-dependent radiation. Hence, an incomplete segmentation, lack of prominent sensory structures in adults and a dorso-ventrally flattened body are just some examples. Although numerous investigations of the nervous system exist for myzostomids, detailed ultrastructural as well as histological examinations of neuronal structures are lacking so far. Therefore, we investigate the nervous system of Myzostoma cirriferum Leuckart, 1836 using a comparative approach including paraffin histology, serial semi-thin sections, immunohistochemistry and ultrastructural investigations. Our analyses reveal a lack of complexity within the anterior-most neuronal condensation (herein called brain) of adult specimens. Hence, prominent tracts or glomeruli are absent, and a glial layer surrounding the brain or radial-like glial cells are lacking. Nevertheless, the ultrastructure of the ventral nervous system is comparable to other Errantia. Therefore, our investigations hint towards a reduction of neuronal complexity in Myzostomida. Additionally, an ontogenetic simplification seems plausible, although further investigations are necessary to verify such a hypothesis. A simplification of neuronal structures due to a drastic change in lifestyle was so far mainly observed for basally branching annelid clades.

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神经系统复杂性的丧失——形态学分析揭示了Myzostomida(环节动物)的神经元进化
Myzostomida被认为嵌套在错误的环节动物中,并表现出独特的形态。后一个事实可能与它们长期依赖宿主的辐射有关。因此,不完整的分割、成年人缺乏突出的感觉结构以及背腹扁平的身体只是一些例子。尽管有许多关于myzostomid的神经系统研究,但迄今为止缺乏神经元结构的详细超微结构和组织学检查。因此,我们采用比较方法,包括石蜡组织学、连续半薄切片、免疫组织化学和超微结构研究,对卷须Myzostoma ciriferum Leuckart,1836的神经系统进行了研究。我们的分析显示,成人标本的最前部神经元凝结(此处称为大脑)缺乏复杂性。因此,突出的束或肾小球缺失,大脑周围缺乏神经胶质层或放射状神经胶质细胞。然而,腹神经系统的超微结构与其他Errantia相当。因此,我们的研究表明,Myzostomida的神经元复杂性有所降低。此外,个体遗传学的简化似乎是合理的,尽管需要进一步的研究来验证这样的假设。到目前为止,由于生活方式的剧烈变化,神经元结构的简化主要观察到基底分支环节支。
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来源期刊
Acta Zoologica
Acta Zoologica 生物-动物学
CiteScore
2.90
自引率
8.30%
发文量
35
审稿时长
>12 weeks
期刊介绍: Published regularly since 1920, Acta Zoologica has retained its position as one of the world''s leading journals in the field of animal organization, development, structure and function. Each issue publishes original research of interest to zoologists and physiologists worldwide, in the field of animal structure (from the cellular to the organismic level) and development with emphasis on functional, comparative and phylogenetic aspects. Occasional review articles are also published, as well as book reviews.
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