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海七鳃鳗(Petromyzon marinus L.)嗅觉诱发运动输出的多巴胺能调节。

Dopaminergic modulation of olfactory-evoked motor output in sea lampreys (Petromyzon marinus L.).

作者信息

Beauséjour Philippe-Antoine, Auclair François, Daghfous Gheylen, Ngovandan Catherine, Veilleux Danielle, Zielinski Barbara, Dubuc Réjean

机构信息

Département de neurosciences, Université de Montréal, Montréal, Québec, Canada.

Département des sciences de l'activité physique, Université du Québec à Montréal, Montréal, Québec, Canada.

出版信息

J Comp Neurol. 2020 Jan 1;528(1):114-134. doi: 10.1002/cne.24743. Epub 2019 Jul 24.

DOI:10.1002/cne.24743
PMID:31286519
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6899967/
Abstract

Detection of chemical cues is important to guide locomotion in association with feeding and sexual behavior. Two neural pathways responsible for odor-evoked locomotion have been characterized in the sea lamprey (Petromyzon marinus L.), a basal vertebrate. There is a medial pathway originating in the medial olfactory bulb (OB) and a lateral pathway originating from the rest of the OB. These olfactomotor pathways are present throughout the life cycle of lampreys, but olfactory-driven behaviors differ according to the developmental stage. Among possible mechanisms, dopaminergic (DA) modulation in the OB might explain the behavioral changes. Here, we examined DA modulation of olfactory transmission in lampreys. Immunofluorescence against DA revealed immunoreactivity in the OB that was denser in the medial part (medOB), where processes were observed close to primary olfactory afferents and projection neurons. Dopaminergic neurons labeled by tracer injections in the medOB were located in the OB, the posterior tuberculum, and the dorsal hypothalamic nucleus, suggesting the presence of both intrinsic and extrinsic DA innervation. Electrical stimulation of the olfactory nerve in an in vitro whole-brain preparation elicited synaptic responses in reticulospinal cells that were modulated by DA. Local injection of DA agonists in the medOB decreased the reticulospinal cell responses whereas the D2 receptor antagonist raclopride increased the response amplitude. These observations suggest that DA in the medOB could modulate odor-evoked locomotion. Altogether, these results show the presence of a DA innervation within the medOB that may play a role in modulating olfactory inputs to the motor command system of lampreys.

摘要

检测化学信号对于指导与觅食和性行为相关的运动至关重要。在作为基底脊椎动物的海七鳃鳗(Petromyzon marinus L.)中,已鉴定出两条负责气味诱发运动的神经通路。一条是起源于内侧嗅球(OB)的内侧通路,另一条是起源于OB其余部分的外侧通路。这些嗅觉运动通路在七鳃鳗的整个生命周期中都存在,但嗅觉驱动的行为会因发育阶段而异。在可能的机制中,OB中的多巴胺能(DA)调节可能解释了行为变化。在此,我们研究了七鳃鳗中嗅觉传递的DA调节。针对DA的免疫荧光显示OB中存在免疫反应性,在内侧部分(medOB)更密集,在那里观察到靠近初级嗅觉传入纤维和投射神经元的突起。通过在medOB中注射示踪剂标记的多巴胺能神经元位于OB、后结节和背侧下丘脑核,表明存在内在和外在的DA神经支配。在体外全脑制备中对嗅神经进行电刺激会引发网状脊髓细胞中的突触反应,该反应受DA调节。在medOB中局部注射DA激动剂会降低网状脊髓细胞反应,而D2受体拮抗剂雷氯必利会增加反应幅度。这些观察结果表明,medOB中的DA可能调节气味诱发的运动。总之,这些结果表明medOB内存在DA神经支配,这可能在调节七鳃鳗运动指令系统的嗅觉输入中发挥作用。

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