运动神经元对于组装用于稳定注视的感觉运动电路来说是必不可少的。

IF 6.4 1区 生物学 Q1 BIOLOGY eLife Pub Date : 2024-11-20 DOI:10.7554/eLife.96893
Dena Goldblatt, Basak Rosti, Kyla Rose Hamling, Paige Leary, Harsh Panchal, Marlyn Li, Hannah Gelnaw, Stephanie Huang, Cheryl Quainoo, David Schoppik
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引用次数: 0

摘要

感觉运动反射回路通过精确的连通性确定了不同的神经元亚型,从而将感觉转化为补偿行为。运动神经元群是否以及如何指定其前运动伙伴的亚型命运和/或感觉连通性仍存在争议。在这里,我们发现运动神经元在稳定凝视的前庭反射回路中对于适当的连接是不可或缺的。我们首先测量了眼外运动神经元伙伴构成性缺失后,前运动投射神经元的前庭感觉活动。我们观察到正常的反应和拓扑,表明感觉神经元和投射神经元之间的功能连接没有改变。接下来,我们展示了投射神经元在解剖学和分子学上仍处于与下游伙伴适当连接的状态。最后,我们证明了投射神经元的转录特征是独立于运动伙伴而发展的。我们的发现全面推翻了一个长期存在的模型:凝视稳定回路中的连接是由运动伙伴衍生的信号逆向决定的。通过确定运动神经元对典型感觉运动回路规范的贡献,我们的研究工作与脊髓中的类似过程不谋而合,并加深了我们对神经发育原理的理解。
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Motor neurons are dispensable for the assembly of a sensorimotor circuit for gaze stabilization.

Sensorimotor reflex circuits engage distinct neuronal subtypes, defined by precise connectivity, to transform sensation into compensatory behavior. Whether and how motor neuron populations specify the subtype fate and/or sensory connectivity of their pre-motor partners remains controversial. Here, we discovered that motor neurons are dispensable for proper connectivity in the vestibular reflex circuit that stabilizes gaze. We first measured activity following vestibular sensation in pre-motor projection neurons after constitutive loss of their extraocular motor neuron partners. We observed normal responses and topography indicative of unchanged functional connectivity between sensory neurons and projection neurons. Next, we show that projection neurons remain anatomically and molecularly poised to connect appropriately with their downstream partners. Lastly, we show that the transcriptional signatures that typify projection neurons develop independently of motor partners. Our findings comprehensively overturn a long-standing model: that connectivity in the circuit for gaze stabilization is retrogradely determined by motor partner-derived signals. By defining the contribution of motor neurons to specification of an archetypal sensorimotor circuit, our work speaks to comparable processes in the spinal cord and advances our understanding of principles of neural development.

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来源期刊
eLife
eLife BIOLOGY-
CiteScore
12.90
自引率
3.90%
发文量
3122
审稿时长
17 weeks
期刊介绍: eLife is a distinguished, not-for-profit, peer-reviewed open access scientific journal that specializes in the fields of biomedical and life sciences. eLife is known for its selective publication process, which includes a variety of article types such as: Research Articles: Detailed reports of original research findings. Short Reports: Concise presentations of significant findings that do not warrant a full-length research article. Tools and Resources: Descriptions of new tools, technologies, or resources that facilitate scientific research. Research Advances: Brief reports on significant scientific advancements that have immediate implications for the field. Scientific Correspondence: Short communications that comment on or provide additional information related to published articles. Review Articles: Comprehensive overviews of a specific topic or field within the life sciences.
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