Multiunit Frontal Eye Field Activity Codes the Visuomotor Transformation, But Not Gaze Prediction or Retrospective Target Memory, in a Delayed Saccade Task.
Serah Seo, Vishal Bharmauria, Adrian Schütz, Xiaogang Yan, Hongying Wang, J Douglas Crawford
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Abstract
Single-unit (SU) activity-action potentials isolated from one neuron-has traditionally been employed to relate neuronal activity to behavior. However, recent investigations have shown that multiunit (MU) activity-ensemble neural activity recorded within the vicinity of one microelectrode-may also contain accurate estimations of task-related neural population dynamics. Here, using an established model-fitting approach, we compared the spatial codes of SU response fields with corresponding MU response fields recorded from the frontal eye fields (FEFs) in head-unrestrained monkeys (Macaca mulatta) during a memory-guided saccade task. Overall, both SU and MU populations showed a simple visuomotor transformation: the visual response coded target-in-eye coordinates, transitioning progressively during the delay toward a future gaze-in-eye code in the saccade motor response. However, the SU population showed additional secondary codes, including a predictive gaze code in the visual response and retention of a target code in the motor response. Further, when SUs were separated into regular/fast spiking neurons, these cell types showed different spatial code progressions during the late delay period, only converging toward gaze coding during the final saccade motor response. Finally, reconstructing MU populations (by summing SU data within the same sites) failed to replicate either the SU or MU pattern. These results confirm the theoretical and practical potential of MU activity recordings as a biomarker for fundamental sensorimotor transformations (e.g., target-to-gaze coding in the oculomotor system), while also highlighting the importance of SU activity for coding more subtle (e.g., predictive/memory) aspects of sensorimotor behavior.
单细胞(SU)活动--从一个神经元中分离出来的动作电位--历来被用来将神经元活动与行为联系起来。然而,最近的研究表明,多单元(MU)活动--在一个微电极附近记录到的神经活动集合--也可能包含对任务相关神经群动态的准确估计。在这里,我们使用一种成熟的模型拟合方法,比较了在记忆引导的囊状动作任务中,头无约束猴子(Macaca mulatta)额叶眼场(FEF)记录的 SU 响应场和相应的 MU 响应场的空间编码。总体而言,SU 和 MU 群体都表现出简单的视觉运动转换:视觉反应编码目标在眼内的坐标,在延迟期间逐步过渡到囊状动作反应中的未来凝视在眼内编码。然而,SU 群体显示出额外的二级编码,包括视觉反应中的预测性凝视编码和运动反应中的目标编码保留。此外,当将 SU 分成普通尖峰神经元和快速尖峰神经元时,这些细胞类型在延迟后期表现出不同的空间编码进展,只有在最后的囊状动作反应中才向凝视编码靠拢。最后,重建 MU 群体(通过对同一部位的 SU 数据求和)未能复制 SU 或 MU 模式。这些结果证实了 MU 活动记录作为基本感觉运动转换(如眼动系统中的 "目标到注视 "编码)生物标记的理论和实践潜力,同时也强调了 SU 活动对于编码更微妙(如预测/记忆)的感觉运动方面的重要性、意义声明 多单位记录(来自多个神经元的无差别信号)相对容易记录,可提供神经动态的简化估计,但目前尚不清楚哪些单单位信号被保留、放大或丢失。在这里,我们比较了来自一个明确定义的结构(额叶眼场)和行为(记忆延迟囊跳任务)的单/多单位活动,通过时间追踪它们的空间编码。在单单元活动中观察到的从目标到注视编码的渐进转变在多单元活动中得以保留,但其他认知信号(初始视觉反应中的注视预测、最终运动反应中的目标记忆以及细胞特异性延迟信号)却丢失了。这表明,多单位活动为健康的感觉运动转换提供了极好的生物标记,但代价是丢失了更微妙的认知信号。
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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