foxn4 Expression Pattern Suggests Its Association with Neurosensory Cells in the White Sea Hydrozoan Sarsia loveni

Pub Date : 2023-10-01 DOI:10.1134/s1062360423050077
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Abstract

The foxn4 is one of the key transcription factor genes controlling retinal formation in vertebrates. However, it is not clear whether its association with light-sensitive organ formation is evolutionary conserved. To answer this question, the authors tested whether the expression of this gene is localized within light-sensitive organs in a representative of basal Metazoa, the hydroid Sarsia lovenii (Hydrozoa, Cnidaria). Usually, the life cycle of hydroids includes stages of a pelagic medusa and a benthic polyp. However, in many species, attached medusoids, in which many medusal structures are reduced, form instead of free-swimming medusaе. The White Sea hydrozoan Sarsia lovenii is an exceptional example of the species, in which polyps of different haplotypes produce either pelagic medusae or attached medusoids. Comparison of gene expression in medusae and medusoids of S. lovenii is a promising model to study how the formation of morphological traits is regulated in hydrozoan cnidarians. We compared the spatial pattern of foxn4 expression in medusae and medusoids of S. lovenii by in situ hybridization. In medusae, foxn4 is expressed not in the photoreceptive ocelli but in the ectoderm of the tentacle bulb around the ocellus. Although, unlike medusae, S. lovenii medusoids lack ocelli, we detected foxn4 expression in their reduced tentacle bulbs. It is known that the tentacle bulb in hydrozoan medusae is a zone of localized formation of nematocytes, which are considered to be derivatives of mechanosensory cells. Thus, our results indicate that, in medusae and medusoids of S. lovenii, the foxn4 is not associated with the formation of light-sensitive organs, as in vertebrates. However, it may be associated with nematocytes, another type of neurosensory cells.

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foxn4 的表达模式表明它与白海水螅 Sarsia loveni 的神经感觉细胞有关
摘要 foxn4是控制脊椎动物视网膜形成的关键转录因子基因之一。然而,尚不清楚它与感光器官形成的关系是否在进化中得到了保留。为了回答这个问题,作者测试了该基因的表达是否定位于基底元胞动物的代表--水螅 Sarsia lovenii(水螅,刺胞动物)的感光器官内。通常,水螅的生命周期包括浮游冥体和底栖息肉两个阶段。然而,在许多物种中,许多髓质结构退化的附着髓质会形成,而不是自由游动的髓质。白海水螅虫 Sarsia lovenii 就是一个特殊的例子,在该物种中,不同单倍型的息肉会产生浮游髓质或附着髓质。比较鳕鱼髓质和髓质中的基因表达是研究水螅虫类如何调控形态特征形成的一个很有前景的模型。我们通过原位杂交比较了 foxn4 在 S. lovenii 中体和髓质中的空间表达模式。在中体中,foxn4不是在感光眼球中表达,而是在眼球周围触手球的外胚层中表达。虽然与介壳虫不同,S. lovenii介壳虫缺乏眼球,但我们在其缩小的触手球中检测到了 foxn4 的表达。众所周知,水螅的触手球是线粒体的局部形成区,而线粒体被认为是机械感觉细胞的衍生物。因此,我们的研究结果表明,在洛文鱼类的髓质和髓鞘中,foxn4 并不像脊椎动物那样与光敏器官的形成有关。然而,它可能与线虫细胞(另一种神经感觉细胞)有关。
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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