Jinmei Ye, Cong Duan, Jiaxin Han, Jinrong Chen, Ning Sun, Yuan Li, Tifei Yuan, Daihui Peng
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引用次数: 0
Abstract
In the pathogenesis of major depressive disorder, chronic stress-related neuroinflammation hinders favorable prognosis and antidepressant response. Mitochondrial DNA may be an inflammatory trigger, after its release from stress-induced dysfunctional central nervous system mitochondria into peripheral circulation. This evidence supports the potential use of peripheral mitochondrial DNA as a neuroinflammatory biomarker for the diagnosis and treatment of major depressive disorder. Herein, we critically review the neuroinflammation theory in major depressive disorder, providing compelling evidence that mitochondrial DNA release acts as a critical biological substrate, and that it constitutes the neuroinflammatory disease pathway. After its release, mitochondrial DNA can be carried in the exosomes and transported to extracellular spaces in the central nervous system and peripheral circulation. Detectable exosomes render encaged mitochondrial DNA relatively stable. This mitochondrial DNA in peripheral circulation can thus be directly detected in clinical practice. These characteristics illustrate the potential for mitochondrial DNA to serve as an innovative clinical biomarker and molecular treatment target for major depressive disorder. This review also highlights the future potential value of clinical applications combining mitochondrial DNA with a panel of other biomarkers, to improve diagnostic precision in major depressive disorder.
摘要:在重度抑郁症的发病机制中,与应激相关的慢性神经炎症阻碍了良好的预后和抗抑郁反应。线粒体 DNA 从应激引起的中枢神经系统功能失调的线粒体释放到外周循环后,可能成为炎症的触发因素。这些证据支持将外周线粒体 DNA 作为神经炎症生物标志物用于重度抑郁障碍的诊断和治疗。在此,我们对重度抑郁障碍中的神经炎症理论进行了批判性回顾,提供了令人信服的证据,证明线粒体 DNA 的释放是一种关键的生物基质,它构成了神经炎症疾病的途径。线粒体 DNA 释放后可被外泌体携带并运送到中枢神经系统和外周循环的细胞外空间。可检测的外泌体使包裹的线粒体 DNA 相对稳定。因此,在临床实践中可以直接检测外周循环中的线粒体 DNA。这些特点说明线粒体 DNA 有潜力成为重度抑郁障碍的创新临床生物标志物和分子治疗靶点。本综述还强调了将线粒体 DNA 与其他生物标记物组合在一起的临床应用的未来潜在价值,以提高重度抑郁障碍的诊断精确度。
期刊介绍:
Neural Regeneration Research (NRR) is the Open Access journal specializing in neural regeneration and indexed by SCI-E and PubMed. The journal is committed to publishing articles on basic pathobiology of injury, repair and protection to the nervous system, while considering preclinical and clinical trials targeted at improving traumatically injuried patients and patients with neurodegenerative diseases.