Protein Interaction Assessing Mitochondrial Biogenesis as a Next Generation Biomarker in Sepsis

CHEST critical care Pub Date : 2024-03-21 DOI:10.1016/j.chstcc.2024.100065

Patrick Thon PhD , Ellen Trübner MD , Frieda Zimmer MD , Lars Palmowski MD , Stefan F. Ehrentraut MD , Christian Putensen MD , Dietrich Henzler MD , Elke Schwier PhD , Andrea Witowski MD , Britta Marko MD , Dominik Ziehe PhD , Hartmuth Nowak MD , Katharina Rump PhD , Lars Bergmann MD , Alexander Wolf MD , Matthias Unterberg MD , Michael Adamzik MD , Björn Koos PhD , Tim Rahmel MD , SepsisDataNet.NRW Study Group

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Abstract

Background

Metabolic derangements in sepsis stem from mitochondrial injury and contribute to organ dysfunction and mortality. Thus, repair of mitochondrial damage seems pivotal for recovery and determining clinical outcome in sepsis. However, reliable biomarkers assessing mitochondrial repair noninvasively in peripheral blood are currently lacking.

Research Question

Are different gene transcripts related to mitochondrial repair (ie, biogenesis, fusion, fission, mitophagy) and the protein interaction assessing mitochondrial biogenesis, both measured in peripheral blood, associated with disease severity and clinical outcome?

Study Design and Methods

Healthy control patients (n = 22), uninfected critically ill control patients (n = 13), and patients with sepsis (n = 75) were included in this prospective multicentric observational study. Gene products of mitochondrial quality control and mitochondrial DNA were measured on day 1 and 4 in peripheral blood mononuclear cells. In addition, we assessed in the same samples the mitochondrial protein interaction of mitochondrial transcription factor A (TFAM)-mitochondrial transcription factor B2 (TFB2M) using a proximity ligation assay. Patients with sepsis were stratified in the outcome-related subgroups ICU-free within 1 week (n = 16), not ICU-free within 1 week (n = 36), and 30-day nonsurvivors (n = 23).

Results

Transcript levels of the assessed messenger RNA markers of patients with sepsis were not associated with disease severity nor did they predict clinical outcome. Strikingly, the mitochondrial protein interaction of TFAM-TFB2M on day 4 (P < .05) and the difference between day 1 and 4 (P < .001) allowed stratification in the three clinical outcome subgroups. In addition, a decline in TFAM-TFB2M protein interactions between day 1 and 4 was an independent predicator for 30-day mortality (adjusted hazard ratio, 8.34; 95% CI, 2.73-25.45; P < .001).

Interpretation

Patients with sepsis with an early activation of mitochondrial biogenesis were more likely to be ICU-free within 1 week. A mitochondrial and clinical recovery can be assessed via the protein interaction of TFAM-TFB2M in peripheral blood. Thus, mitochondrial protein interactions targeting mitochondrial biogenesis provide a promising dimension of novel biomarkers assessing mitochondrial dysfunction in sepsis.

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将评估线粒体生物生成的蛋白质相互作用作为败血症的新一代生物标志物：一项前瞻性队列研究

背景脓毒症的代谢紊乱源于线粒体损伤，并导致器官功能障碍和死亡。因此，线粒体损伤的修复似乎是脓毒症患者康复和决定临床结局的关键。研究问题在外周血中测量与线粒体修复（即生物发生、融合、裂变、有丝分裂）相关的不同基因转录本和评估线粒体生物发生的蛋白质相互作用是否与疾病严重程度和临床结局相关？研究设计与方法这项前瞻性多中心观察研究纳入了健康对照组患者（22 人）、未感染的重症对照组患者（13 人）和败血症患者（75 人）。我们在第 1 天和第 4 天测量了外周血单核细胞中线粒体质量控制的基因产物和线粒体 DNA。此外，我们还在相同样本中使用邻近连接试验评估了线粒体转录因子 A（TFAM）-半软骨转录因子 B2（TFB2M）的线粒体蛋白相互作用。结果脓毒症患者的信使 RNA 标记物转录本水平与疾病严重程度无关，也不能预测临床结果。令人震惊的是，第 4 天 TFAM-TFB2M 的线粒体蛋白相互作用（P < .05）和第 1 天与第 4 天之间的差异（P < .001）允许对三个临床结果亚组进行分层。此外，第 1 天和第 4 天之间 TFAM-TFB2M 蛋白相互作用的下降是 30 天死亡率的独立预测因素（调整后危险比为 8.34；95% CI 为 2.73-25.45；P <；.001）。线粒体和临床康复可通过外周血中 TFAM-TFB2M 蛋白相互作用进行评估。因此，针对线粒体生物生成的线粒体蛋白相互作用为评估脓毒症线粒体功能障碍的新型生物标志物提供了一个前景广阔的维度。

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CHEST critical care Critical Care and Intensive Care Medicine, Pulmonary and Respiratory Medicine

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