Signaling Ligand Heterogeneities in the Peduncle Complex of the Cephalopod Mollusc Octopus bimaculoides.

IF 2.1 4区心理学 Q3 BEHAVIORAL SCIENCES Brain Behavior and Evolution Pub Date : 2024-01-01 Epub Date: 2024-04-30 DOI:10.1159/000539128

Z Yan Wang, Clifton W Ragsdale

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Abstract

Introduction: The octopus peduncle complex is an agglomeration of neural structures with remarkably diverse functional roles. The complex rests on the optic tract, between the optic lobe and the central brain, and comprises the peduncle lobe proper, the olfactory lobe, and the optic gland. The peduncle lobe regulates visuomotor behaviors, the optic glands control sexual maturation and maternal death, and the olfactory lobe is thought to receive input from the olfactory organ. Recent transcriptomic and metabolomic studies have identified candidate peptide and steroid ligands in the Octopus bimaculoides optic gland.

Methods: With gene expression for these ligands and their biosynthetic enzymes, we show that optic gland neurochemistry extends beyond the traditional optic gland secretory tissue and into lobular territories.

Results: A key finding is that the classically defined olfactory lobe is itself a heterogeneous territory and includes steroidogenic territories that overlap with cells expressing molluscan neuropeptides and the synthetic enzyme dopamine beta-hydroxylase.

Conclusion: Our study reveals the neurochemical landscape of the octopus peduncle complex, highlighting the unexpected overlap between traditionally defined regions.

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头足类软体动物章鱼（Octopus bimaculoides）足柄复合体中的信号配体异质性。

简介章鱼足突复合体是神经结构的集合体，其功能作用极为多样。该复合体位于视束、视叶和中脑之间，由足叶、嗅叶和视腺组成。足叶调节视觉运动行为，视腺控制性成熟和母体死亡，嗅叶被认为接收来自嗅觉器官的输入。最近的转录组学和代谢组学研究发现了章鱼双目视腺的候选肽配体和类固醇配体：方法：通过这些配体及其生物合成酶的基因表达，我们发现视腺神经化学已经超越了传统的视腺分泌组织，进入了小叶区域：一个重要发现是，经典定义的嗅叶本身就是一个异质区域，包括与表达软体动物神经肽和合成酶多巴胺 beta- 羟化酶的细胞重叠的类固醇生成区域：我们的研究揭示了章鱼足节复合体的神经化学景观，突出显示了传统定义区域之间意想不到的重叠。

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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.