Predatory aggression evolved through adaptations to noradrenergic circuits

Guniz Goze Eren, Leonard Boger, Marianne Roca, Fumie Hiramatsu, Jun Liu, Luis Alvarez, Desiree L. Goetting, Nurit Zorn, Ziduan Han, Misako Okumura, Monika Scholz, James W Lightfoot
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Abstract

Behaviors are adaptive traits evolving through natural selection. Crucially, the genetic, molecular, and neural modifications that shape behavioral innovations are poorly understood. Here, we identify specialized adaptations linked to the evolution of aggression in the predatory nematode Pristionchus pacificus. Using machine learning, we identified robust behavioral states associated with aggressive episodes. These depend on modifications to the invertebrate noradrenergic pathway, with octopamine promoting predatory bouts, and tyramine antagonistically suppressing predation. Strikingly, aggression coincides with rewiring of key circuits across nematode evolution. We find additional octopaminergic neurons with morphological adaptations, including neurites extending to teeth-like structures, and expanded receptor expression throughout head sensory neurons gating prey detection. Thus, evolutionary adaptations in noradrenergic circuits facilitated the emergence of aggressive behavioral states associated with complex predatory traits.
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掠夺性攻击是通过适应去甲肾上腺素能回路进化而来的
行为是通过自然选择进化而来的适应性特征。重要的是,人们对形成行为创新的基因、分子和神经修饰知之甚少。在这里,我们确定了与掠食性线虫 Pristionchus pacificus 攻击行为进化相关的专门适应性。通过机器学习,我们确定了与攻击性发作相关的强健行为状态。这些行为状态取决于无脊椎动物去甲肾上腺素能通路的改变,其中章胺能促进捕食行为,而酪胺能拮抗抑制捕食行为。令人震惊的是,攻击性与线虫进化过程中关键回路的重新布线相吻合。我们发现了更多具有形态适应性的章胺能神经元,包括延伸到齿状结构的神经元,以及扩大了整个头部感觉神经元受体表达的猎物检测门控。因此,去甲肾上腺素能回路的进化适应促进了与复杂捕食特性相关的攻击性行为状态的出现。
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