Whole Nervous System Expression of Glutamate Receptors Reveals Distinct Receptor Roles in Sensorimotor Circuits.

IF 2.7 3区 医学 Q3 NEUROSCIENCES
eNeuro Pub Date : 2024-09-23 Print Date: 2024-09-01 DOI:10.1523/ENEURO.0306-24.2024
Cezar Borba, Matthew J Kourakis, Yishen Miao, Bharath Guduri, Jianan Deng, William C Smith
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Abstract

The goal of connectomics is to reveal the links between neural circuits and behavior. Larvae of the primitive chordate Ciona are well-suited to make contributions in this area. In addition to having a described connectome, Ciona larvae have a range of readily quantified behaviors. Moreover, the small number of neurons in the larval CNS (∼180) holds the promise of a comprehensive characterization of individual neurons. We present single-neuron predictions for glutamate receptor (GlutR) expression based on in situ hybridization. Included are both ionotropic receptors (AMPA, NMDA, and kainate) and metabotropic receptors. The predicted glutamate receptor expression dataset is discussed in the context of known circuits driving behaviors such as phototaxis, mechanosensation, and looming shadow response. The predicted expression of AMPA and NMDA receptors may help resolve issues regarding the co-production of GABA and glutamate by a subset of photoreceptors. The targets of these photoreceptors in the midbrain appear to express NMDA receptors, but not AMPA receptors. This is in agreement with previous results indicating that GABA is the primary neurotransmitter from the photoreceptors evoking a swimming response through a disinhibition mechanism and that glutamate may, therefore, have only a modulatory action in this circuit. Other findings reported here are more unexpected. For example, many of the targets of glutamatergic epidermal sensory neurons (ESNs) do not express any of the ionotropic receptors, yet the ESNs themselves express metabotropic receptors. Thus, we speculate that their production of glutamate may be for communication with neighboring ESNs, rather than to their interneuron targets.

谷氨酸受体在整个神经系统中的表达揭示了受体在感觉运动回路中的不同作用。
连接组学的一个目标是揭示神经回路与行为之间的联系。原始脊索动物 Ciona 的幼虫非常适合在这一领域做出贡献。除了拥有已描述的连接组之外,脊索动物幼体还具有一系列易于量化的行为。此外,幼虫中枢神经系统中的神经元数量较少(180 个),这为全面描述单个神经元的特征提供了希望。我们基于原位杂交技术对单个神经元的谷氨酸受体(GlutR)表达进行了预测。其中包括离子受体(AMPA、NMDA 和 Kainate)和代谢受体。预测的谷氨酸受体表达数据集将结合已知的驱动行为(如趋光性、机械感觉和隐影反应)的回路进行讨论。预测的 AMPA 和 NMDA 受体的表达可能有助于解决有关一部分感光器共同产生 GABA 和谷氨酸的问题。这些光感受器在中脑的目标似乎表达 NMDA 受体,而不表达 AMPA 受体。这与之前的研究结果一致,即 GABA 是光感受器通过抑制机制唤起游泳反应的主要神经递质,因此谷氨酸在该回路中可能只有调节作用。这里报告的其他发现更出人意料。例如,谷氨酸能表皮感觉神经元(ESNs)的许多目标并不表达任何离子受体,但 ESNs 本身却表达代谢受体。因此,我们推测它们产生谷氨酸可能是为了与邻近的 ESNs 通信,而不是与它们的神经元间靶点通信。意义声明 简单的无脊椎动物为复杂的脊椎动物大脑提供了一种可替代的方法,有助于全面了解大脑功能。海洋脊索动物脊索动物(Ciona)就是这样一种无脊椎动物,它的游泳幼虫具有完整的突触线路图。这种 "连接组 "可以识别驱动特定行为的假定神经回路。然而,要更全面地了解神经回路,还需要对单个神经元的属性进行描述。本研究的重点是兴奋性神经递质谷氨酸,它通过一组复杂的离子型和代谢型受体发出信号。在此,我们从神经回路的角度,在单个神经元的水平上对巨尾藻体中 GlutR 的表达进行了神经系统范围的预测,重点是 GlutR 的表达如何解释神经回路的功能。
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
eNeuro
eNeuro Neuroscience-General Neuroscience
CiteScore
5.00
自引率
2.90%
发文量
486
审稿时长
16 weeks
期刊介绍: An open-access journal from the Society for Neuroscience, eNeuro publishes high-quality, broad-based, peer-reviewed research focused solely on the field of neuroscience. eNeuro embodies an emerging scientific vision that offers a new experience for authors and readers, all in support of the Society’s mission to advance understanding of the brain and nervous system.
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