上丘中错误信号的消除会损害眼球运动的运动学习。

Elimination of the error signal in the superior colliculus impairs saccade motor learning.

机构信息

Washington National Primate Research Center, University of Washington, Seattle, WA 98195-7330;

Washington National Primate Research Center, University of Washington, Seattle, WA 98195-7330.

出版信息

Proc Natl Acad Sci U S A. 2018 Sep 18;115(38):E8987-E8995. doi: 10.1073/pnas.1806215115. Epub 2018 Sep 5.

DOI:10.1073/pnas.1806215115

PMID:30185563

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6156644/

Abstract

When movements become dysmetric, the resultant motor error induces a plastic change in the cerebellum to correct the movement, i.e., motor adaptation. Current evidence suggests that the error signal to the cerebellum is delivered by complex spikes originating in the inferior olive (IO). To prove a causal link between the IO error signal and motor adaptation, several studies blocked the IO, which, unfortunately, affected not only the adaptation but also the movement itself. We avoided this confound by inactivating the source of an error signal to the IO. Several studies implicate the superior colliculus (SC) as the source of the error signal to the IO for saccade adaptation. When we inactivated the SC, the metrics of the saccade to be adapted were unchanged, but saccade adaptation was impaired. Thus, an intact rostral SC is necessary for saccade adaptation. Our data provide experimental evidence for the cerebellar learning theory that requires an error signal to drive motor adaptation.

摘要

当运动变得不准确时，由此产生的运动误差会引起小脑的塑性变化以纠正运动，即运动适应。目前的证据表明，小脑的误差信号是由来自下橄榄核（IO）的复杂尖峰产生的。为了证明 IO 误差信号与运动适应之间存在因果关系，一些研究阻断了 IO，不幸的是，这不仅影响了适应，还影响了运动本身。我们通过使 IO 的误差信号源失活来避免这种混淆。几项研究表明，上丘（SC）是 IO 的误差信号源，用于扫视适应。当我们使 SC 失活时，要适应的扫视的度量值没有变化，但扫视适应受到损害。因此，完整的额 SC 是扫视适应所必需的。我们的数据为需要误差信号来驱动运动适应的小脑学习理论提供了实验证据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6697/6156644/aa205d1c1750/pnas.1806215115fig01.jpg

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上丘中错误信号的消除会损害眼球运动的运动学习。

Elimination of the error signal in the superior colliculus impairs saccade motor learning.

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