The Emerging Role of Brain Mitochondria in Fear and Anxiety.

Alessandro Chioino, Carmen Sandi
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Abstract

The functional complexity of brain circuits underlies the broad spectrum of behaviors, cognitive functions, and their associated disorders. Mitochondria, traditionally known for their role in cellular energy metabolism, are increasingly recognized as central to brain function and behavior. This review examines how mitochondria are pivotal in linking cellular energy processes with the functioning of neural circuits that govern fear and anxiety. Following an introductory section in which we summarize current knowledge about fear and anxiety neural circuits, we provide a brief summary of mitochondria fundamental roles (e.g., from energy production and calcium buffering to their involvement in reactive oxygen species (ROS) generation, mitochondrial dynamics, and signaling), particularly emphasizing their contribution to synaptic plasticity, neurodevelopment, and stress response mechanisms. The review's core focuses on the current state of knowledge regarding how mitochondrial function and dysfunction impact the neural substrates of fear and anxiety. Furthermore, we explore the implications of mitochondrial alterations in the context of posttraumatic stress disorder (PTSD) and anxiety disorders, underscoring the potential of mitochondrial pathways as new therapeutic targets. Integrating insights from genetic, biochemical, neurobiological, behavioral, and clinical studies, we propose a model in which mitochondrial function is critical for regulating the neural circuits that underpin fear and anxiety behaviors, highlighting how mitochondrial dysfunction can lead to their pathological manifestations. This integration emphasizes the potential for developing novel treatments targeting the biological roots of fear, anxiety, and related disorders. By merging mitochondrial biology with behavioral and circuit neuroscience, we enrich our neurobiological understanding of fear and anxiety, uncovering promising avenues for therapeutic intervention.

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大脑线粒体在恐惧和焦虑中的新作用。
大脑回路的功能复杂性是各种行为、认知功能及其相关疾病的基础。线粒体传统上因其在细胞能量代谢中的作用而闻名,但人们越来越认识到线粒体是大脑功能和行为的核心。本综述将探讨线粒体是如何将细胞能量代谢过程与支配恐惧和焦虑的神经回路功能联系起来的。在引言部分,我们总结了当前有关恐惧和焦虑神经回路的知识,然后简要概述了线粒体的基本作用(例如,从能量生产和钙缓冲到参与活性氧(ROS)生成、线粒体动力学和信号传导),特别强调了线粒体对突触可塑性、神经发育和应激反应机制的贡献。这篇综述的核心重点是线粒体功能和功能障碍如何影响恐惧和焦虑的神经基质的知识现状。此外,我们还探讨了线粒体改变对创伤后应激障碍(PTSD)和焦虑症的影响,强调了线粒体通路作为新治疗靶点的潜力。综合遗传学、生物化学、神经生物学、行为学和临床研究的观点,我们提出了一个线粒体功能对于调节支撑恐惧和焦虑行为的神经回路至关重要的模型,强调了线粒体功能障碍如何导致其病理表现。这种整合强调了针对恐惧、焦虑和相关疾病的生物学根源开发新型疗法的潜力。通过将线粒体生物学与行为和回路神经科学相结合,我们丰富了对恐惧和焦虑的神经生物学理解,为治疗干预发现了前景广阔的途径。
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来源期刊
Current topics in behavioral neurosciences
Current topics in behavioral neurosciences Neuroscience-Behavioral Neuroscience
CiteScore
4.80
自引率
0.00%
发文量
103
期刊最新文献
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