刺激的情境化处理调节大鼠的听觉错配反应

Jaishree Jalewa, Juanita Todd, Patricia T Michie, Deborah M Hodgson, Lauren Harms
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摘要

错配负性(MMN)是一种听觉预测错误信号,与预期(标准)刺激相比,它是一种对意外(偏差)刺激的增强反应。由于精神分裂症患者的错配负性降低的可靠发现,人们对错配负性产生了浓厚的兴趣。要解释精神分裂症患者 MMN 的减弱,就必须进一步了解影响 MMN 振幅的因素,从而更好地理解减弱的神经机制。一些实验室已经在啮齿类动物身上观察到了错配反应(MMR),本研究则评估了错配反应是如何在大鼠更复杂的听觉序列中发生改变的。预测错误的产生与 "预测性 "内部规律模型有关。当规律性发生变化时,这些内部模型会动态更新,但当两种规律性交替出现时,人类的多巴胺神经网络会表现出顺序效应;虽然两种规律性中的偏差都会引起多巴胺神经网络(即模型更新),但随着时间的推移,第二种遇到的规律性类型的多巴胺神经网络振幅积累较慢。我们研究了大鼠 MMR 是否存在顺序效应。我们使用无线遥测技术对清醒、自由活动的 Wistar 大鼠的 MMR 进行了研究,以发现在单独序列(每次一种正则)和正则来回变化的交替序列中存在罕见的上升和下降频率偏差。然而,在交替情境中,大鼠的MMR并没有表现出顺序效应,但在升序和降序偏差中都出现了大量的MMR,而当相同的规律性分别出现时,只有升序偏差才会出现MMR。长期序列结构改变了大鼠听觉系统的预测错误信号,揭示了内部模型对长期情境的敏感性。
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Contextualised Processing of Stimuli Modulates Auditory Mismatch Responses in the Rat.

Mismatch negativity (MMN), an auditory prediction error signal, is an enhanced response to unexpected (deviant) stimuli compared to expected (standard) stimuli. There is strong interest in MMN due to reliable findings of reduced MMN in schizophrenia. To interpret reduced MMN in schizophrenia, an enhanced understanding of the factors that influence MMN amplitude could lead to a better understanding of neural mechanisms underpinning the reduction. While several laboratories have observed mismatch responses (MMRs) in rodents, this study assesses how MMR is altered in more complex auditory sequences in rats. Prediction-errors are elicited in relation to "predictive" internal models of regularities. These internal models are updated dynamically when a regularity changes, but human MMN exhibits order effects when two regularities alternate; while deviants in both regularities elicit MMN (ie, the model updates) there is a slower build-up in MMN amplitude over time in the second encountered regularity type. We investigate whether order effects occur in rat MMRs. MMRs were studied to rare ascending and descending frequency deviations in awake, freely moving Wistar rats using wireless telemetry in both separate sequences (one regularity at a time) and in alternating sequences where regularities changed back and forth. The rat MMR did not show order effects, however, substantial MMRs occurred in response to both ascending and descending deviants in the alternating context but to the ascending deviant only when the same regularities were presented separately. The longer-term sequence structure altered prediction-error signalling in rat auditory system revealing a long term context sensitivity in internal models.

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