Department of Surgery, Kansas City VA Medical Center, University of Missouri Kansas City, 4801 E Linwood Blvd, Kansas City, MO, 64128, USA.
Inflamm Res. 2020 Nov;69(11):1077-1085. doi: 10.1007/s00011-020-01389-z. Epub 2020 Aug 7.
Decline in mitochondrial function occurs with aging and may increase mortality. We discuss mitochondrial contribution to Covid-19 sepsis, specifically the complex interaction of innate immune function, viral replication, hyper-inflammatory state, and HIF-α/Sirtuin pathways.
Articles from PubMed/Medline searches were reviewed using the combination of terms "SARS-CoV-2, Covid-19, sepsis, mitochondria, aging, and immunometabolism".
Evidence indicates that mitochondria in senescent cells may be dysfunctional and unable to keep up with hypermetabolic demands associated with Covid-19 sepsis. Mitochondrial proteins may serve as damage-associated molecular pattern (DAMP) activating innate immunity. Disruption in normal oxidative phosphorylation pathways contributes to elevated ROS which activates sepsis cascade through HIF-α/Sirtuin pathway. Viral-mitochondrial interaction may be necessary for replication and increased viral load. Hypoxia and hyper-inflammatory state contribute to increased mortality associated with Covid-19 sepsis.
Aging is associated with worse outcomes in sepsis. Modulating Sirtuin activity is emerging as therapeutic agent in sepsis. HIF-α, levels of mitochondrial DNA, and other mitochondrial DAMP molecules may also serve as useful biomarker and need to be investigated. These mechanisms should be explored specifically for Covid-19-related sepsis. Understanding newly discovered regulatory mechanisms may lead to the development of novel diagnostic and therapeutic targets.
线粒体功能随着年龄的增长而下降,可能会增加死亡率。我们讨论了线粒体对新冠病毒引起的败血症的贡献,特别是固有免疫功能、病毒复制、炎症反应过度和 HIF-α/Sirtuin 通路的复杂相互作用。
使用“SARS-CoV-2、Covid-19、败血症、线粒体、衰老和免疫代谢”等术语,对 PubMed/Medline 搜索的文章进行了综述。
有证据表明,衰老细胞中的线粒体可能功能失调,无法跟上与新冠病毒引起的败血症相关的高代谢需求。线粒体蛋白可能作为损伤相关分子模式 (DAMP) 激活固有免疫。正常氧化磷酸化途径的破坏导致 ROS 升高,通过 HIF-α/Sirtuin 途径激活败血症级联反应。病毒-线粒体相互作用可能是复制和增加病毒载量所必需的。缺氧和炎症反应过度导致与新冠病毒引起的败血症相关的死亡率增加。
衰老与败血症的预后不良有关。调节 Sirtuin 活性作为败血症的治疗药物正在出现。HIF-α、线粒体 DNA 水平和其他线粒体 DAMP 分子也可以作为有用的生物标志物进行研究。这些机制需要特别针对新冠病毒相关的败血症进行研究。了解新发现的调节机制可能会导致新的诊断和治疗靶点的开发。
