Transsynaptic BMP Signaling Regulates Fine-Scale Topography between Adjacent Sensory Neurons.

IF 2.7 3区 医学 Q3 NEUROSCIENCES eNeuro Pub Date : 2024-08-28 Print Date: 2024-08-01 DOI:10.1523/ENEURO.0322-24.2024
Takuya Kaneko, Ruonan Li, Qun He, Limin Yang, Bing Ye
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Abstract

Sensory axons projecting to the central nervous system are organized into topographic maps that represent the locations of sensory stimuli. In some sensory systems, even adjacent sensory axons are arranged topographically, forming "fine-scale" topographic maps. Although several broad molecular gradients are known to instruct coarse topography, we know little about the molecular signaling that regulates fine-scale topography at the level of two adjacent axons. Here, we provide evidence that transsynaptic bone morphogenetic protein (BMP) signaling mediates local interneuronal communication to regulate fine-scale topography in the nociceptive system of Drosophila larvae. We first show that the topographic separation of the axon terminals of adjacent nociceptors requires their common postsynaptic target, the A08n neurons. This phenotype is recapitulated by knockdown of the BMP ligand, Decapentaplegic (Dpp), in these neurons. In addition, removing the Type 2 BMP receptors or their effector (Mad transcription factor) in single nociceptors impairs the fine-scale topography, suggesting the contribution of BMP signaling originated from A08n. This signaling is likely mediated by phospho-Mad in the presynaptic terminals of nociceptors to ensure local interneuronal communication. Finally, reducing Dpp levels in A08n reduces the nociceptor-A08n synaptic contacts. Our data support that transsynaptic BMP signaling establishes the fine-scale topography by facilitating the formation of topographically correct synapses. Local BMP signaling for synapse formation may be a developmental strategy that independently regulates neighboring axon terminals for fine-scale topography.

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跨突触 BMP 信号调节相邻感觉神经元之间的精细地形。
投射到中枢神经系统的感觉轴突被组织成地形图,代表感觉刺激的位置。在某些感觉系统中,甚至相邻的感觉轴突也按地形排列,形成 "精细尺度 "地形图。尽管已知有几种广泛的分子梯度可指示粗地形图,但我们对在两个相邻轴突水平上调节细地形图的分子信号知之甚少。在这里,我们提供了证据,证明跨突触 BMP 信号介导了局部神经元间的交流,从而调节果蝇幼虫痛觉系统的精细地形。我们首先证明,相邻痛觉感受器轴突末端的拓扑分离需要它们共同的突触后靶点--A08n神经元。在这些神经元中敲除 BMP 配体 Dpp 可重现这种表型。此外,去除单个痛觉感受器中的 II 型 BMP 受体或其效应因子(Mad 转录因子)会损害细尺度拓扑结构,这表明 BMP 信号的贡献源自 A08n。这种信号很可能是由痛觉感受器突触前末端的磷酸化-Mad介导的,以确保局部神经元间的交流。最后,降低 A08n 中的 Dpp 水平会减少痛觉感受器与 A08n 的突触接触。我们的数据支持跨突触 BMP 信号通过促进形成拓扑正确的突触来建立精细尺度的拓扑结构。用于突触形成的局部BMP信号可能是一种发育策略,它能独立调节邻近轴突末端的精细尺度拓扑。 重要意义 声明 投射到中枢神经系统(CNS)的感觉轴突在空间上是有组织的,以代表感觉刺激的位置。这种情况甚至发生在相邻的感觉轴突之间。虽然人们已经对中枢神经系统中感觉轴突的粗略空间排列有了很多了解,但对排列两个相邻轴突的分子信号仍知之甚少。本研究表明,这一过程受局部神经元间通信的调节,通过跨突触 BMP 信号传导,促进位置适当的感觉轴突形成突触。
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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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