Co-occurrence between the presence of epidermal giant cells and alarm chemical cues in tadpole skin homogenates: An ontogenetic and cross-species comparison analysis

IF 1.6 3区 生物学 Q2 ZOOLOGY
Zoology Pub Date : 2022-08-01 DOI:10.1016/j.zool.2022.126024
Lucas David Jungblut , Marilina Raices , Laura Rincón-Camacho , Andrea Gabriela Pozzi
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Abstract

In amphibians, intra- or interspecific chemical cues are an important source of information about possible predation risk. In anuran tadpoles, this information causes changes at different levels including behavior, morphology, and growth and development. It has been shown that chemical alarm cues trigger antipredator behaviors, such as decreased exploratory activity, in a wide variety of anuran species; however, the cellular origin of the chemical cues has not yet been confirmed by new evidence. Previous works have suggested that the alarm cues originate from a particular cell type in the skin in tadpoles of the family Bufonidae: the epidermal giant cells (GCs). Here, we confirm the presence of GCs in the epidermis of Rhinella arenarum larvae from developmental stages as early as G22, when free-swimming larvae show gregarious behavior. In addition, larval skin homogenates trigger antipredator behaviors in conspecifics from stage G22 onwards, but not at early stages (G19 and G21). This fact exposes experimental evidence for the coexistence between the appearance of GCs and the production of chemical alarm cues during the development of R. arenarum. Furthermore, the antipredator behavioral response of R. arenarum larvae triggered by skin preparations of other species that belong to the same family who also exhibit GCs allows us to speculate that chemical cues appear to be conserved among phylogenetically related species, allowing them to cross-respond to heterospecific cues. Our experimental approaches support the role of GCs as the source of alarm cues in anuran larvae of the family Bufonidae.

Abstract Image

蝌蚪皮肤匀浆中表皮巨细胞和报警化学信号的共存:个体发生和跨物种比较分析
在两栖动物中,种内或种间的化学线索是关于可能的捕食风险的重要信息来源。在无尾蝌蚪中,这些信息引起了不同层次的变化,包括行为、形态、生长和发育。研究表明,化学警报提示会引发反捕食者行为,例如在各种无尾动物中减少探索活动;然而,化学线索的细胞起源尚未得到新证据的证实。先前的研究表明,警报信号起源于蟾蜍科蝌蚪皮肤中的一种特殊细胞类型:表皮巨细胞(GCs)。本研究证实,早在22岁时,自由游动的沙鲷幼虫就表现出群居行为,表皮中存在GCs。此外,幼虫皮肤匀浆从G22期开始触发同种鱼的反捕食行为,但在早期阶段(G19和G21)不会触发。这一事实提供了实验证据,证明在沙棘的发育过程中,gc的出现与化学报警信号的产生并存。此外,沙arenum幼虫的反捕食行为反应是由同科的其他物种的皮肤制剂引发的,这些物种也表现出gc,这使我们推测,化学线索似乎在系统发育相关的物种中是保守的,允许它们对异源性线索进行交叉反应。我们的实验方法支持GCs在蟾蜍科无尾幼虫中作为警报信号来源的作用。
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来源期刊
Zoology
Zoology 生物-动物学
CiteScore
3.90
自引率
0.00%
发文量
37
审稿时长
70 days
期刊介绍: Zoology is a journal devoted to experimental and comparative animal science. It presents a common forum for all scientists who take an explicitly organism oriented and integrative approach to the study of animal form, function, development and evolution. The journal invites papers that take a comparative or experimental approach to behavior and neurobiology, functional morphology, evolution and development, ecological physiology, and cell biology. Due to the increasing realization that animals exist only within a partnership with symbionts, Zoology encourages submissions of papers focused on the analysis of holobionts or metaorganisms as associations of the macroscopic host in synergistic interdependence with numerous microbial and eukaryotic species. The editors and the editorial board are committed to presenting science at its best. The editorial team is regularly adjusting editorial practice to the ever changing field of animal biology.
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