Revisiting the two rhythm generators for respiration in lampreys

IF 2.1 4区 医学 Q1 ANATOMY & MORPHOLOGY
Kianoush Missaghi, Jean-Patrick Le Gal, Julien Mercier, Martin Grover, Philippe-Antoine Beauséjour, Shannon Chartré, Omima Messihad, François Auclair, Réjean Dubuc
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Abstract

In lampreys, respiration consists of a fast and a slow rhythm. This study was aimed at characterizing both anatomically and physiologically the brainstem regions involved in generating the two rhythms. The fast rhythm generator has been located by us and others in the rostral hindbrain, rostro-lateral to the trigeminal motor nucleus. More recently, this was challenged by researchers reporting that the fast rhythm generator was located more rostrally and dorsomedially, in a region corresponding to the mesencephalic locomotor region. These contradictory observations made us re-examine the location of the fast rhythm generator using anatomical lesions and physiological recordings. We now confirm that the fast respiratory rhythm generator is in the rostro-lateral hindbrain as originally described. The slow rhythm generator has received less attention. Previous studies suggested that it was composed of bilateral, interconnected rhythm generating regions located in the caudal hindbrain, with ascending projections to the fast rhythm generator. We used anatomical and physiological approaches to locate neurons that could be part of this slow rhythm generator. Combinations of unilateral injections of anatomical tracers, one in the fast rhythm generator area and another in the lateral tegmentum of the caudal hindbrain, were performed to label candidate neurons on the non-injected side of the lateral tegmentum. We found a population of neurons extending from the facial to the caudal vagal motor nuclei, with no clear clustering in the cell distribution. We examined the effects of stimulating different portions of the labeled population on the respiratory activity. The rostro-caudal extent of the population was arbitrarily divided in three portions that were each stimulated electrically or chemically. Stimulation of either of the three sites triggered bursts of discharge characteristic of the slow rhythm, whereas inactivating any of them stopped the slow rhythm. Substance P injected locally in the lateral tegmentum accelerated the slow respiratory rhythm in a caudal hindbrain preparation. Our results show that the fast respiratory rhythm generator consists mostly of a population of neurons rostro-lateral to the trigeminal motor nucleus, whereas the slow rhythm generator is distributed in the lateral tegmentum of the caudal hindbrain.

重新审视灯鱼呼吸的两种节律发生器
灯鱼的呼吸包括快节奏和慢节奏。这项研究旨在从解剖学和生理学角度确定参与产生这两种节律的脑干区域的特征。我们和其他人将快节奏发生器定位在喙后脑,即三叉神经运动核的喙外侧。最近,有研究人员报告称,快速节律发生器位于更喙侧和背侧,与间脑运动区相对应。这些相互矛盾的观察结果促使我们利用解剖病变和生理记录重新研究快速节律发生器的位置。现在我们证实,快速呼吸节律发生器位于最初描述的喙外侧后脑。慢节律发生器受到的关注较少。以前的研究表明,它由位于后脑尾部的双侧、相互连接的节律发生区组成,并有上升投射到快速节律发生器。我们采用解剖学和生理学方法来定位可能是慢节律发生器一部分的神经元。我们在快速节律发生器区域和后脑尾部外侧被盖区分别注射了单侧解剖示踪剂,以标记外侧被盖区非注射侧的候选神经元。我们发现了一个从面部延伸到尾部迷走神经运动核的神经元群,细胞分布没有明显的集群。我们研究了刺激标记群的不同部分对呼吸活动的影响。我们将标记群的喙尾部任意分为三个部分,分别对其进行电刺激或化学刺激。刺激这三个部位中的任何一个都会引发慢节律特征的放电爆发,而使其中任何一个失活都会停止慢节律。在后脑尾部制备的实验中,向外侧被盖局部注射 P 物质可加速慢呼吸节律。我们的研究结果表明,快速呼吸节律发生器主要由三叉神经运动核喙外侧的神经元群组成,而慢速节律发生器则分布在后脑尾部的外侧被盖部。
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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来源期刊
Frontiers in Neuroanatomy
Frontiers in Neuroanatomy ANATOMY & MORPHOLOGY-NEUROSCIENCES
CiteScore
4.70
自引率
3.40%
发文量
122
审稿时长
>12 weeks
期刊介绍: Frontiers in Neuroanatomy publishes rigorously peer-reviewed research revealing important aspects of the anatomical organization of all nervous systems across all species. Specialty Chief Editor Javier DeFelipe at the Cajal Institute (CSIC) is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
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