Canny Susan P, Stanaway Ian B, Holton Sarah E, Mitchem Mallorie, O'Rourke Allison R, Pribitzer Stephan, Baxter Sarah K, Wurfel Mark M, Malhotra Uma, Buckner Jane H, Bhatraju Pavan K, Morrell Eric D, Speake Cate, Mikacenic Carmen, Hamerman Jessica A
Center for Fundamental Immunology, Benaroya Research Institute, Seattle, WA.
Department of Pediatrics, University of Washington, Seattle, WA.
bioRxiv. 2024 Aug 15:2024.08.13.607855. doi: 10.1101/2024.08.13.607855.
We aimed to define and validate novel biomarkers that could identify individuals with COVID-19 associated secondary hemophagocytic lymphohistiocytosis (sHLH) and to test whether fatalities due to COVID-19 in the presence of sHLH were associated with specific defects in the immune system.
In two cohorts of adult patients presenting with COVID-19 in 2020 and 2021, clinical lab values and serum proteomics were assessed. Subjects identified as having sHLH were compared to those with COVID-19 without sHLH. Eight deceased patients defined as COVID-sHLH underwent genomic sequencing in order to identify variants in immune-related genes.
Two tertiary care hospitals in Seattle, Washington (Virginia Mason Medical Center and Harborview Medical Center).
186 patients with COVID-19.
None.
Nine percent of enrolled COVID-19 subjects met our defined criteria for sHLH. Using broad serum proteomic approaches (O-link and SomaScan), we identified three biomarkers for COVID-19 associated sHLH (soluble PD-L1, TNF-R1, and IL-18BP), supporting a role for proteins previously associated with other forms of sHLH (IL-18BP and sTNF-R1). We also identified novel biomarkers and pathways of COVID-sHLH, including sPD-L1 and the syntaxin pathway. We detected variants in several genes involved in immune responses in individuals with COVID-sHLH, including in and in , suggesting that genetic alterations in immune-related genes may contribute to hyperinflammation and fatal outcomes in COVID-19.
Biomarkers of COVID-19 associated sHLH, such as soluble PD-L1, and pathways, such as the syntaxin pathway, and variants in immune genes in these individuals, suggest critical roles for the immune response in driving sHLH in the context of COVID-19.
我们旨在定义和验证可识别与新型冠状病毒肺炎(COVID-19)相关的继发性噬血细胞性淋巴组织细胞增生症(sHLH)患者的新型生物标志物,并测试在存在sHLH的情况下,COVID-19导致的死亡是否与免疫系统的特定缺陷相关。
在2020年和2021年两组成年COVID-19患者中,评估临床实验室值和血清蛋白质组学。将被确定为患有sHLH的受试者与未患sHLH的COVID-19患者进行比较。对8名被定义为COVID-sHLH的死亡患者进行基因组测序,以识别免疫相关基因中的变异。
华盛顿州西雅图的两家三级医疗中心(弗吉尼亚梅森医疗中心和哈博维尤医疗中心)。
186例COVID-19患者。
无。
9%的入组COVID-19受试者符合我们定义的sHLH标准。使用广泛的血清蛋白质组学方法(O-link和SomaScan),我们确定了三种与COVID-19相关sHLH的生物标志物(可溶性程序性死亡配体1、肿瘤坏死因子受体1和白细胞介素18结合蛋白),支持了先前与其他形式sHLH相关的蛋白质(白细胞介素18结合蛋白和可溶性肿瘤坏死因子受体1)的作用。我们还确定了COVID-sHLH的新型生物标志物和途径,包括可溶性程序性死亡配体1和Syntaxin途径。我们在患有COVID-sHLH的个体中检测到几个参与免疫反应的基因变异,包括在[具体基因1]和[具体基因2]中的变异,这表明免疫相关基因的遗传改变可能导致COVID-19中的过度炎症和致命后果。
COVID-19相关sHLH的生物标志物,如可溶性程序性死亡配体1,以及途径,如Syntaxin途径,以及这些个体免疫基因中的变异,表明免疫反应在COVID-19背景下驱动sHLH中起关键作用。
