Department of Laboratory Medicine and Pathology, Mayo Clinic, Rochester, MN, USA.
Department of Laboratory Medicine and Pathology, Mayo Clinic, Rochester, MN, USA; Institute of Bioinformatics, International Technology Park, Karnataka, India; Amrita School of Biotechnology, Kerala, India.
Mayo Clin Proc. 2021 Oct;96(10):2561-2575. doi: 10.1016/j.mayocp.2021.07.001. Epub 2021 Jul 15.
To compare coronavirus disease 2019 (COVID-19) acute kidney injury (AKI) to sepsis-AKI (S-AKI). The morphology and transcriptomic and proteomic characteristics of autopsy kidneys were analyzed.
Individuals 18 years of age and older who died from COVID-19 and had an autopsy performed at Mayo Clinic between April 2020 to October 2020 were included. Morphological evaluation of the kidneys of 17 individuals with COVID-19 was performed. In a subset of seven COVID-19 cases with postmortem interval of less than or equal to 20 hours, ultrastructural and molecular characteristics (targeted transcriptome and proteomics analyses of tubulointerstitium) were evaluated. Molecular characteristics were compared with archived cases of S-AKI and nonsepsis causes of AKI.
The spectrum of COVID-19 renal pathology included macrophage-dominant microvascular inflammation (glomerulitis and peritubular capillaritis), vascular dysfunction (peritubular capillary congestion and endothelial injury), and tubular injury with ultrastructural evidence of mitochondrial damage. Investigation of the spatial architecture using a novel imaging mass cytometry revealed enrichment of CD3CD4 T cells in close proximity to antigen-presenting cells, and macrophage-enriched glomerular and interstitial infiltrates, suggesting an innate and adaptive immune tissue response. Coronavirus disease 2019 AKI and S-AKI, as compared to nonseptic AKI, had an enrichment of transcriptional pathways involved in inflammation (apoptosis, autophagy, major histocompatibility complex class I and II, and type 1 T helper cell differentiation). Proteomic pathway analysis showed that COVID-19 AKI and to a lesser extent S-AKI were enriched in necroptosis and sirtuin-signaling pathways, both involved in regulatory response to inflammation. Upregulation of the ceramide-signaling pathway and downregulation of oxidative phosphorylation in COVID-19 AKI were noted.
This data highlights the similarities between S-AKI and COVID-19 AKI and suggests that mitochondrial dysfunction may play a pivotal role in COVID-19 AKI. This data may allow the development of novel diagnostic and therapeutic targets.
比较 2019 年冠状病毒病(COVID-19)急性肾损伤(AKI)与脓毒症相关 AKI(S-AKI)。分析尸检肾脏的形态学和转录组学及蛋白质组学特征。
纳入 2020 年 4 月至 10 月期间在梅奥诊所接受 COVID-19 死亡并进行尸检的年龄≥18 岁的个体。对 17 名 COVID-19 患者的肾脏进行形态学评估。在 COVID-19 病例中,有 7 例尸检间隔时间≤20 小时,对其进行超微结构和分子特征(肾小管间质性靶向转录组和蛋白质组学分析)评估。将分子特征与存档的 S-AKI 病例和非脓毒症性 AKI 原因进行比较。
COVID-19 肾脏病理学谱包括以巨噬细胞为主的微血管炎症(肾小球肾炎和肾小管毛细血管炎)、血管功能障碍(肾小管毛细血管充血和内皮损伤)和伴有超微结构证据的管状损伤线粒体损伤。使用新型成像质谱细胞术对空间结构进行研究发现,CD3CD4 T 细胞在抗原呈递细胞附近丰富,巨噬细胞丰富的肾小球和间质浸润提示固有和适应性免疫组织反应。与非脓毒症性 AKI 相比,COVID-19 AKI 和 S-AKI 中与炎症相关的转录途径(细胞凋亡、自噬、主要组织相容性复合体 I 和 II 以及 1 型 T 辅助细胞分化)丰富。蛋白质组学途径分析显示,COVID-19 AKI 及程度较轻的 S-AKI 中坏死性凋亡和 Sirtuin 信号通路富集,这两种途径均涉及对炎症的调节反应。COVID-19 AKI 中神经酰胺信号通路上调和氧化磷酸化下调。
这些数据突出了 S-AKI 和 COVID-19 AKI 之间的相似性,并提示线粒体功能障碍可能在 COVID-19 AKI 中发挥关键作用。这些数据可能为开发新的诊断和治疗靶点提供依据。
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