超越经典的灭绝网络:一个更广泛的，比较的观点

Q3 Medicine

Neuroforum Pub Date : 2020-07-31 DOI:10.1515/nf-2020-0015

O. Güntürkün, Maik C. Stüttgen, Sarah Starosta, R. Pusch, Meng Gao, M. Nitsche, T. Ernst, M. Ladd, H. Quick, D. Timmann

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引用次数: 1

摘要

消退学习改变了大脑回路的动态，使先前习得的条件反应不再产生。大多数关于灭绝的研究都使用了啮齿动物的恐惧条件反射，并将前额皮质、海马体和杏仁核确定为灭绝回路的核心区域。我们试图找到两个问题的答案:首先，我们是否在鸟类中发现了类似的功能脑回路，它们与哺乳动物经历了3亿年的独立进化?第二，我们必须把小脑作为中央灭绝回路的关键组成部分吗?我们确实表明，鸟类的灭绝途径并不相同，但与哺乳动物的灭绝途径高度相似。此外，我们揭示了人类小脑处理预测错误，这是驱动习得性恐惧反应消退的关键因素，并有助于消退的情境相关效应。

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Beyond the classic extinction network: a wider, comparative view

Abstract Extinction learning modifies the dynamics of brain circuits such that a previously learned conditioned response is no longer generated. The majority of extinction studies use fear conditioning in rodents and identified the prefrontal cortex, the hippocampus, and the amygdala as core regions of the extinction circuit. We sought to find answers to two questions: First, do we find a similar functional brain circuit in birds, which underwent a 300-million-year separate evolution from mammals? Second, do we have to incorporate the cerebellum as a key component of the central extinction circuit? We indeed show that the avian extinction pathways are not identical but highly similar to those of mammals. In addition, we reveal that the human cerebellum processes prediction errors, a key element driving extinction of learned fear responses, and contributes to context-related effects of extinction.

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来源期刊

Neuroforum NEUROSCIENCES-

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： Neuroforum publishes invited review articles from all areas in neuroscience. Readership includes besides basic and medical neuroscientists also journalists, practicing physicians, school teachers and students. Neuroforum reports on all topics in neuroscience – from molecules to the neuronal networks, from synapses to bioethics.