Ken and Ruth Davee Department of Neurology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611, USA.
SomaLogic, Inc, Boulder, CO 80301, USA.
Brain Behav Immun. 2023 Nov;114:462-474. doi: 10.1016/j.bbi.2023.08.022. Epub 2023 Sep 11.
Persistent symptoms of COVID-19 survivors constitute long COVID syndrome, also called post-acute sequelae of SARS-CoV-2 infection (PASC). Neurologic manifestations of PASC (Neuro-PASC) are particularly debilitating, long lasting, and poorly understood. To gain insight into the pathogenesis of PASC, we leveraged a well-characterized group of Neuro-PASC (NP) patients seen at our Neuro-COVID-19 clinic who had mild acute COVID-19 and never required hospitalization to investigate their plasma proteome. Using the SomaLogic platform, SomaScan, the plasma concentration of >7000 proteins was measured from 92 unvaccinated individuals, including 48 NP patients, 20 COVID-19 convalescents (CC) without lingering symptoms, and 24 unexposed healthy controls (HC) to interrogate underlying pathobiology and potential biomarkers of PASC. We analyzed the plasma proteome based on post-COVID-19 status, neurologic and non-neurologic symptoms, as well as subjective and objective standardized tests for changes in quality-of-life (QoL) and cognition associated with Neuro-PASC. The plasma proteome of NP patients differed from CC and HC subjects more substantially than post-COVID-19 groups (NP and CC combined) differed from HC. Proteomic differences in NP patients 3-9 months following acute COVID-19 showed alterations in inflammatory proteins and pathways relative to CC and HC subjects. Proteomic associations with Neuro-PASC symptoms of brain fog and fatigue included changes in markers of DNA repair, oxidative stress, and neutrophil degranulation. Furthermore, we discovered a correlation between NP patients lower subjective impression of recovery to pre-COVID-19 baseline with an increase in the concentration of the oxidative phosphorylation protein COX7A1, which was also associated with neurologic symptoms and fatigue, as well as impairment in QoL and cognitive dysfunction. Finally, we identified other oxidative phosphorylation-associated proteins correlating with central nervous system symptoms. Our results suggest ongoing inflammatory changes and mitochondrial involvement in Neuro-PASC and pave the way for biomarker validation for use in monitoring and development of therapeutic intervention for this debilitating condition.
新冠病毒幸存者持续存在的症状构成了长新冠综合征,也称为 SARS-CoV-2 感染后的急性后遗症(PASC)。PASC 的神经系统表现(Neuro-PASC)特别虚弱、持久且理解不足。为了深入了解 PASC 的发病机制,我们利用在我们的神经新冠诊所中观察到的一组特征明确的神经 PASC(NP)患者,这些患者患有轻度急性 COVID-19,从未需要住院治疗,以研究他们的血浆蛋白质组。使用 SomaLogic 平台 SomaScan,从 92 名未接种疫苗的个体中测量了 >7000 种蛋白质的血浆浓度,包括 48 名 NP 患者、20 名无遗留症状的 COVID-19 恢复期患者(CC)和 24 名未暴露的健康对照(HC),以探究潜在的发病机制和 PASC 的潜在生物标志物。我们根据 post-COVID-19 状态、神经和非神经症状以及与神经 PASC 相关的生活质量(QoL)和认知的主观和客观标准化测试来分析血浆蛋白质组。与 post-COVID-19 组(NP 和 CC 合并)相比,NP 患者的血浆蛋白质组与 CC 和 HC 受试者的差异更大。急性 COVID-19 后 3-9 个月 NP 患者的蛋白质组差异显示,与 CC 和 HC 受试者相比,炎症蛋白和途径发生了改变。与脑雾和疲劳等神经 PASC 症状相关的蛋白质组关联包括 DNA 修复、氧化应激和嗜中性粒细胞脱粒的标志物变化。此外,我们发现 NP 患者对恢复到 COVID-19 前基线的主观印象较低与氧化磷酸化蛋白 COX7A1 浓度增加之间存在相关性,该蛋白也与神经症状和疲劳以及生活质量受损和认知功能障碍相关。最后,我们发现了与中枢神经系统症状相关的其他氧化磷酸化相关蛋白。我们的结果表明,Neuro-PASC 中存在持续的炎症变化和线粒体参与,并为用于监测和开发这种虚弱疾病的治疗干预措施的生物标志物验证铺平了道路。
