Cerebellar contribution to the regulation of defensive states.

IF 3.1 4区 医学 Q2 NEUROSCIENCES
Gabriela Neubert da Silva, Nina Seiffert, Philip Tovote
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Abstract

Despite fine tuning voluntary movement as the most prominently studied function of the cerebellum, early human studies suggested cerebellar involvement emotion regulation. Since, the cerebellum has been associated with various mood and anxiety-related conditions. Research in animals provided evidence for cerebellar contributions to fear memory formation and extinction. Fear and anxiety can broadly be referred to as defensive states triggered by threat and characterized by multimodal adaptations such as behavioral and cardiac responses integrated into an intricately orchestrated defense reaction. This is mediated by an evolutionary conserved, highly interconnected network of defense-related structures with functional connections to the cerebellum. Projections from the deep cerebellar nucleus interpositus to the central amygdala interfere with retention of fear memory. Several studies uncovered tight functional connections between cerebellar deep nuclei and pyramis and the midbrain periaqueductal grey. Specifically, the fastigial nucleus sends direct projections to the ventrolateral PAG to mediate fear-evoked innate and learned freezing behavior. The cerebellum also regulates cardiovascular responses such as blood pressure and heart rate-effects dependent on connections with medullary cardiac regulatory structures. Because of the integrated, multimodal nature of defensive states, their adaptive regulation has to be highly dynamic to enable responding to a moving threatening stimulus. In this, predicting threat occurrence are crucial functions of calculating adequate responses. Based on its role in prediction error generation, its connectivity to limbic regions, and previous results on a role in fear learning, this review presents the cerebellum as a regulator of integrated cardio-behavioral defensive states.

小脑对防御状态调节的贡献。
尽管微调自主运动是小脑最重要的研究功能,早期的人类研究表明小脑参与情绪调节。此后,小脑一直与各种情绪和焦虑相关的疾病有关。对动物的研究提供了小脑对恐惧记忆形成和消失的贡献的证据。恐惧和焦虑可以被广泛地称为由威胁触发的防御状态,并以多模式适应为特征,如行为和心脏反应整合为复杂的精心策划的防御反应。这是由一个进化保守的,高度互联的防御相关结构网络与小脑的功能连接所介导的。从小脑深部隔核到中央杏仁核的投射干扰了恐惧记忆的保留。一些研究揭示了小脑深部核和锥体与中脑导水管周围灰质之间的紧密功能联系。具体来说,顶核直接向腹外侧PAG发送投射,以介导恐惧诱发的先天和习得的冻结行为。小脑还调节心血管反应,如血压和心率,这些作用依赖于与髓质心脏调节结构的连接。由于防御状态的综合、多模态性质,它们的适应性调节必须是高度动态的,以便对移动的威胁刺激作出反应。在这方面,预测威胁的发生是计算适当反应的关键功能。基于小脑在预测错误产生中的作用、小脑与边缘区域的连通性以及先前关于恐惧学习的研究结果,本综述提出了小脑作为综合心脏-行为防御状态的调节器。
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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来源期刊
Frontiers in Systems Neuroscience
Frontiers in Systems Neuroscience Neuroscience-Developmental Neuroscience
CiteScore
6.00
自引率
3.30%
发文量
144
审稿时长
14 weeks
期刊介绍: Frontiers in Systems Neuroscience publishes rigorously peer-reviewed research that advances our understanding of whole systems of the brain, including those involved in sensation, movement, learning and memory, attention, reward, decision-making, reasoning, executive functions, and emotions.
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