Selective direct motor cortical influence during naturalistic climbing.

bioRxiv : the preprint server for biology Pub Date : 2024-08-21 DOI:10.1101/2023.06.18.545509

Natalie Koh, Zhengyu Ma, Abhishek Sarup, Amy C Kristl, Mark Agrios, Margaret Young, Andrew Miri

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Abstract

It remains poorly resolved when and how motor cortical output directly influences limb muscle activity through descending projections, which impedes mechanistic understanding of cortical movement control. Here we addressed this in mice performing an ethologically inspired all-limb climbing behavior. We quantified the direct influence of forelimb primary motor cortex (caudal forelimb area, CFA) on muscle activity comprehensively across the muscle activity states that occur during climbing. We found that CFA informs muscle activity pattern, mainly by selectively activating certain muscles while exerting much smaller, bidirectional effects on their antagonists. From Neuropixel recordings, we identified linear combinations (components) of motor cortical activity that covary with these effects, finding that these components differ from those that covary with muscle activity or kinematics. Collectively, our results reveal an instructive direct motor cortical influence on limb muscles that is selective within a motor behavior and reliant on a new type of neural activity subspace.

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自然攀爬过程中运动皮层的选择性直接影响

运动皮层的输出何时以及如何通过下行投射直接影响肢体肌肉活动的问题仍然没有得到很好的解决，这阻碍了对皮层运动控制的机理理解。在这里，我们通过小鼠在伦理启发下的全肢攀爬行为来解决这个问题。我们全面量化了前肢初级运动皮层（前肢尾部区域，CFA）对肌肉活动的直接影响，这些影响贯穿攀爬过程中出现的肌肉活动状态。我们发现，CFA 主要通过选择性地激活某些肌肉，同时对其拮抗剂产生小得多的双向影响，从而为肌肉活动模式提供信息。通过神经像素记录，我们确定了与这些效应共存的运动皮层活动的线性组合（成分），发现这些成分与与肌肉活动或运动学共存的成分不同。总之，我们的研究结果揭示了运动皮层对四肢肌肉的直接指导性影响，这种影响在运动行为中具有选择性，并依赖于一种新型的神经活动子空间。

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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bioRxiv : the preprint server for biology

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