Systems Neurophysiology, Werner Reichardt Centre for Integrative Neuroscience.
Department of Cognitive Neurology, Hertie Institute for Clinical Brain Research, University of Tübingen, 72076 Tübingen, Germany, and.
J Neurosci. 2018 May 23;38(21):4870-4885. doi: 10.1523/JNEUROSCI.2403-17.2018. Epub 2018 Apr 27.
Little is known about whether information transfer at primary sensory thalamic nuclei is modified by behavioral context. Here we studied the influence of previous decisions/rewards on current choices and preceding spike responses of ventroposterior medial thalamus (VPm; the primary sensory thalamus in the rat whisker-related tactile system). We trained head-fixed rats to detect a ramp-like deflection of one whisker interspersed within ongoing white noise stimulation. Using generative modeling of behavior, we identify two task-related variables that are predictive of actual decisions. The first reflects task engagement on a local scale ("trial history": defined as the decisions and outcomes of a small number of past trials), whereas the other captures behavioral dynamics on a global scale ("satiation": slow dynamics of the response pattern along an entire session). Although satiation brought about a slow drift from Go to NoGo decisions during the session, trial history was related to local (trial-by-trial) patterning of Go and NoGo decisions. A second model that related the same predictors first to VPm spike responses, and from there to decisions, indicated that spiking, in contrast to behavior, is sensitive to trial history but relatively insensitive to satiation. Trial history influences VPm spike rates and regularity such that a history of Go decisions would predict fewer noise-driven spikes (but more regular ones), and more ramp-driven spikes. Neuronal activity in VPm, thus, is sensitive to local behavioral history, and may play an important role in higher-order cognitive signaling. It is an important question for perceptual and brain functions to find out whether cognitive signals modulate the sensory signal stream and if so, where in the brain this happens. This study provides evidence that decision and reward history can already be reflected in the ascending sensory pathway, on the level of first-order sensory thalamus. Cognitive signals are relayed very selectively such that only local trial history (spanning a few trials) but not global history (spanning an entire session) are reflected.
关于初级感觉丘脑核的信息传递是否受到行为背景的影响,目前知之甚少。在这里,我们研究了先前的决策/奖励对当前选择和腹后内侧丘脑 (VPm;大鼠触须相关触觉系统中的初级感觉丘脑) 前尖峰反应的影响。我们训练了头固定的大鼠来检测一根触须的斜坡状偏转,该触须穿插在持续的白噪声刺激中。通过对行为进行生成建模,我们确定了两个与实际决策相关的可预测变量。第一个反映了局部尺度上的任务参与度(“试验历史”:定义为过去少数几次试验的决策和结果),而另一个则反映了全局尺度上的行为动态(“饱和”:整个试验过程中反应模式的缓慢动态)。尽管饱和导致会话期间从 Go 到 NoGo 决策的缓慢漂移,但试验历史与 Go 和 NoGo 决策的局部(逐次试验)模式有关。第二个将相同的预测因子首先与 VPm 尖峰反应相关联,然后再与决策相关联的模型表明,与行为相反,尖峰对试验历史敏感,但对饱和相对不敏感。试验历史会影响 VPm 的尖峰率和规律性,使得 Go 决策的历史将预测更少的噪声驱动尖峰(但更规则),以及更多的斜坡驱动尖峰。因此,VPm 中的神经元活动对局部行为历史敏感,可能在高级认知信号中发挥重要作用。对于感知和大脑功能来说,一个重要的问题是找出认知信号是否调制感觉信号流,如果是这样,大脑中的哪个部位会发生这种情况。这项研究提供的证据表明,决策和奖励历史已经可以在第一级感觉丘脑的上升感觉通路上得到反映。认知信号被非常选择性地传递,只有局部试验历史(跨越几个试验),而不是全局历史(跨越整个试验)得到反映。