An Astyanax mexicanus mao knockout line uncovers the developmental roles of monoamine homeostasis in fish brain

IF 1.7 4区 生物学 Q4 CELL BIOLOGY
Alessandro Alunni, Constance Pierre, Jorge Torres-Paz, Natacha Clairet, Auriane Langlumé, Marie Pavie, Thomas Escoffier-Pirouelle, Michael Leblanc, Maryline Blin, Sylvie Rétaux
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Abstract

Monoaminergic systems are conserved in vertebrates, yet they present variations in neuroanatomy, genetic components and functions across species. MonoAmine Oxidase, or MAO, is the enzyme responsible for monoamine degradation. While mammals possess two genes, MAO-A and MAO-B, fish possess one single mao gene. To study the function of MAO and monoamine homeostasis on fish brain development and physiology, here we have generated a mao knockout line in Astyanax mexicanus (surface fish), by CRISPR/Cas9 technology. Homozygote mao knockout larvae died at 13 days post-fertilization. Through a time-course analysis, we report that hypothalamic serotonergic neurons undergo fine and dynamic regulation of serotonin level upon loss of mao function, in contrast to those in the raphe, which showed continuously increased serotonin levels – as expected. Dopaminergic neurons were not affected by mao loss-of-function. At behavioral level, knockout fry showed a transient decrease in locomotion that followed the variations in the hypothalamus serotonin neuronal levels. Finally, we discovered a drastic effect of mao knockout on brain progenitors proliferation in the telencephalon and hypothalamus, including a reduction in the number of proliferative cells and an increase of the cell cycle length. Altogether, our results show that MAO has multiple and varied effects on Astyanax mexicanus brain development. Mostly, they bring novel support to the idea that serotonergic neurons in the hypothalamus and raphe of the fish brain are different in nature and identity, and they unravel a link between monoaminergic homeostasis and brain growth.

Abstract Image

Astyanax mexicanus mao基因敲除系揭示了鱼脑中单胺类稳态的发育作用。
单胺类系统在脊椎动物中是保守的,但它们在神经解剖学、遗传成分和功能方面存在差异。单胺氧化酶(MAO)是负责单胺降解的酶。哺乳动物有MAO-A和MAO-B两个基因,而鱼类只有一个MAO基因。为了研究MAO和单胺稳态对鱼类大脑发育和生理的作用,我们利用CRISPR/Cas9技术在墨西哥Astyanax(表层鱼类)中产生了一个MAO敲除系。同卵毛敲除幼虫13岁死亡 受精后天数。通过时间进程分析,我们报告说,下丘脑5-羟色胺能神经元在mao功能丧失时会对5-羟色胺水平进行精细和动态的调节,而中缝神经元则表现出5-羟色胺水平的持续增加,正如预期的那样。多巴胺能神经元不受mao功能丧失的影响。在行为水平上,敲除fry表现出随下丘脑血清素神经元水平变化而出现的短暂运动减少。最后,我们发现mao基因敲除对端脑和下丘脑的脑祖细胞增殖有显著影响,包括增殖细胞数量减少和细胞周期长度增加。总之,我们的研究结果表明,MAO对墨西哥Astyanax大脑发育有多种不同的影响。大多数情况下,它们为鱼类大脑下丘脑和中缝的5-羟色胺能神经元在性质和身份上不同的观点提供了新的支持,并揭示了单胺能稳态与大脑生长之间的联系。这篇文章受版权保护。保留所有权利。
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来源期刊
Development Growth & Differentiation
Development Growth & Differentiation 生物-发育生物学
CiteScore
4.60
自引率
4.00%
发文量
62
审稿时长
6 months
期刊介绍: Development Growth & Differentiation (DGD) publishes three types of articles: original, resource, and review papers. Original papers are on any subjects having a context in development, growth, and differentiation processes in animals, plants, and microorganisms, dealing with molecular, genetic, cellular and organismal phenomena including metamorphosis and regeneration, while using experimental, theoretical, and bioinformatic approaches. Papers on other related fields are also welcome, such as stem cell biology, genomics, neuroscience, Evodevo, Ecodevo, and medical science as well as related methodology (new or revised techniques) and bioresources. Resource papers describe a dataset, such as whole genome sequences and expressed sequence tags (ESTs), with some biological insights, which should be valuable for studying the subjects as mentioned above. Submission of review papers is also encouraged, especially those providing a new scope based on the authors’ own study, or a summarization of their study series.
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