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尽管肌梭发育异常,但功能降低的感觉运动连接仍以正常特异性形成:梭内源性神经营养因子3的作用。

Functionally reduced sensorimotor connections form with normal specificity despite abnormal muscle spindle development: the role of spindle-derived neurotrophin 3.

作者信息

Shneider Neil A, Mentis George Z, Schustak Joshua, O'Donovan Michael J

机构信息

Section on Developmental Neurobiology, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892, USA.

出版信息

J Neurosci. 2009 Apr 15;29(15):4719-35. doi: 10.1523/JNEUROSCI.5790-08.2009.

DOI:10.1523/JNEUROSCI.5790-08.2009
PMID:19369542
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2739048/
Abstract

The mechanisms controlling the formation of synaptic connections between muscle spindle afferents and spinal motor neurons are believed to be regulated by factors originating from muscle spindles. Here, we find that the connections form with appropriate specificity in mice with abnormal spindle development caused by the conditional elimination of the neuregulin 1 receptor ErbB2 from muscle precursors. However, despite a modest ( approximately 30%) decrease in the number of afferent terminals on motor neuron somata, the amplitude of afferent-evoked synaptic potentials recorded in motor neurons was reduced by approximately 80%, suggesting that many of the connections that form are functionally silent. The selective elimination of neurotrophin 3 (NT3) from muscle spindles had no effect on the amplitude of afferent-evoked ventral root potentials until the second postnatal week, revealing a late role for spindle-derived NT3 in the functional maintenance of the connections. These findings indicate that spindle-derived factors regulate the strength of the connections but not their initial formation or their specificity.

摘要

人们认为,控制肌梭传入纤维与脊髓运动神经元之间突触连接形成的机制受源自肌梭的因子调控。在此,我们发现,在由肌肉前体细胞中神经调节蛋白1受体ErbB2的条件性缺失导致梭发育异常的小鼠中,连接以适当的特异性形成。然而,尽管运动神经元胞体上的传入终末数量适度减少(约30%),但在运动神经元中记录到的传入诱发突触电位的幅度却降低了约80%,这表明形成的许多连接在功能上是沉默的。从肌梭中选择性消除神经营养因子3(NT3),直到出生后第二周才对传入诱发的腹根电位幅度产生影响,这揭示了梭源性NT3在连接功能维持中的后期作用。这些发现表明,梭源性因子调节连接的强度,而非其初始形成或特异性。

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