A consensus blood transcriptomic framework for sepsis.

IF 50 1区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Nature Medicine Pub Date : 2025-09-30 DOI:10.1038/s41591-025-03964-5

Brendon P Scicluna, Kiki Cano-Gamez, Katie L Burnham, Emma E Davenport, Andrew Reese Moore, Soumen Khan, Charles J Hinds, Olaf L Cremer, Purvesh Khatri, Timothy E Sweeney, Julian C Knight, Tom van der Poll

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Abstract

Sepsis is a life-threatening condition driven by a maladaptive host response to infection. To establish a standardized blood transcriptomic subtype model, we aggregated blood transcriptomics data from two major sepsis cohorts: the Molecular Diagnosis and Risk Stratification of Sepsis (MARS) project (n = 678 sampled on intensive care unit admission; ClinicalTrials.gov registration no. NCT01905033 ) and the Genomic Advances in Sepsis (GAinS) study (n = 444 sampled on intensive care unit admission and n = 817 follow-up samples; ClinicalTrials.gov registration no. NCT00131196 ). We demonstrate a strong interconnection across three separate classification methods, resulting in the proposed groupings of three consensus transcriptomic subtypes (CTSs). The distinguishing characteristics of CTS1 included gene activation of typical inflammatory pathways, more pronounced endothelial activation and an overall immature neutrophil theme. CTS2 was characterized by gene activation of a heme metabolism pathway, fibrinolytic disturbances and platelet and eosinophil signatures. CTS3 was associated with genes involved in the activation of allograft rejection, interferon signaling and anticoagulation functions, together with lymphocyte and nonclassical monocyte features. Evaluating CTS classification in independent patient cohorts, specifically the vasopressin vs noradrenaline as initial therapy in septic shock (VANISH) randomized controlled trial (n = 176; ISRCTN registration no. ISRCTN20769191 ) and patients hospitalized with suspected sepsis at a district hospital in Uganda (n = 128), ascertained the robustness of our approach. Notably, post hoc analysis of a pseudo-randomized cohort, along with a reanalysis of the VANISH trial data, unmasked a harmful signal in CTS2-assigned patients treated with corticosteroids. The CTS classification method aligns diverse sepsis transcriptomic subgroupings into a robust, reproducible framework, thereby enabling biological interpretation and potentially assisting aspects of clinical trial design to advance precision medicine in sepsis.

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败血症的一致血液转录组学框架。

败血症是一种危及生命的疾病，是由宿主对感染的不适应反应引起的。为了建立标准化的血液转录组亚型模型，我们汇总了来自两个主要脓毒症队列的血液转录组学数据：脓毒症分子诊断和风险分层（MARS）项目(n = 678例重症监护病房入院样本；ClinicalTrials.gov注册号：NCT01905033)和败血症的基因组进展（GAinS）研究（n = 444例重症监护病房入院样本和n = 817例随访样本）；ClinicalTrials.gov注册号：NCT00131196)。我们展示了三种不同分类方法之间的强互连，从而提出了三种共识转录组亚型（CTSs）的分组。CTS1的显著特征包括典型炎症途径的基因激活，更明显的内皮活化和整体未成熟中性粒细胞主题。CTS2的特征是血红素代谢途径的基因激活、纤维蛋白溶解障碍、血小板和嗜酸性粒细胞特征。CTS3与参与异体移植物排斥反应、干扰素信号和抗凝功能激活的基因以及淋巴细胞和非经典单核细胞特征相关。评估独立患者队列中的CTS分类，特别是抗利尿激素与去甲肾上腺素作为感染性休克初始治疗（VANISH）的随机对照试验(n = 176； ISRCTN注册号：ISRCTN20769191)和在乌干达一家地区医院因疑似败血症住院的患者（n = 128），确定了我们方法的稳健性。值得注意的是，伪随机队列的事后分析，以及对VANISH试验数据的再分析，揭示了在接受皮质类固醇治疗的cts2指定患者中存在有害信号。CTS分类方法将不同的脓毒症转录组亚组整合到一个强大的、可重复的框架中，从而实现生物学解释，并可能帮助临床试验设计方面推进脓毒症的精准医学。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Medicine 医学-生化与分子生物学

CiteScore

100.90

自引率

0.70%

发文量

525

审稿时长

1 months

期刊介绍： Nature Medicine is a monthly journal publishing original peer-reviewed research in all areas of medicine. The publication focuses on originality, timeliness, interdisciplinary interest, and the impact on improving human health. In addition to research articles, Nature Medicine also publishes commissioned content such as News, Reviews, and Perspectives. This content aims to provide context for the latest advances in translational and clinical research, reaching a wide audience of M.D. and Ph.D. readers. All editorial decisions for the journal are made by a team of full-time professional editors. Nature Medicine consider all types of clinical research, including: -Case-reports and small case series -Clinical trials, whether phase 1, 2, 3 or 4 -Observational studies -Meta-analyses -Biomarker studies -Public and global health studies Nature Medicine is also committed to facilitating communication between translational and clinical researchers. As such, we consider “hybrid” studies with preclinical and translational findings reported alongside data from clinical studies.