Theresa Hautz, Hubert Hackl, Hendrik Gottschling, Raphael Gronauer, Julia Hofmann, Stefan Salcher, Bettina Zelger, Rupert Oberhuber, Benno Cardini, Annemarie Weissenbacher, Thomas Resch, Jakob Troppmair, Stefan Schneeberger
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Perfusate was sampled to monitor liver function. qPCR and immunohistochemistry were performed to validate findings. Molecular profiles were compared between transplanted and non-transplanted livers, and livers with and without early allograft dysfunction.</p><p><strong>Findings: </strong>Pathways related to immune and cell stress responses, cell trafficking and cell regulation were activated during NMP, while cellular metabolism was downregulated over time. Anti-inflammatory responses and genes involved in tissue remodelling were induced at later time-points, suggesting a counter-response to the immediate damage. NMP strongly induced a gene signature associated with ischemia-reperfusion injury. A 7-gene signature corresponds with the benchmarking criteria for transplantation or discard at 6 h NMP (area under curve 0.99). CD274 gene expression (encoding programmed cell-death ligand-1) showed the highest predictive value. 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引用次数: 0
摘要
背景:我们需要更好地了解肝脏常温机器灌注(NMP)过程中的分子事件,以开发一种基于数据的方法来鉴定代表移植物质量和移植后预后的生物标志物。我们分析了 NMP 期间的动态转录变化,并将其与临床和生化参数联系起来。在 NMP 前、NMP 期间和再灌注后收集的连续活检组织中进行了大量 RNA 测序。对灌注液进行采样以监测肝功能。对移植肝脏和非移植肝脏、早期同种异体移植功能障碍肝脏和非早期同种异体移植功能障碍肝脏的分子特征进行了比较:研究结果:与免疫和细胞应激反应、细胞贩运和细胞调控有关的通路在 NMP 期间被激活,而细胞代谢则随着时间的推移而下调。抗炎反应和参与组织重塑的基因在较晚的时间点被诱导,这表明了对直接损伤的反作用。NMP 能强烈诱导与缺血再灌注损伤相关的基因特征。7 个基因的特征与 6 h NMP 时移植或丢弃的基准标准一致(曲线下面积为 0.99)。CD274 基因表达(编码程序性细胞死亡配体-1)的预测价值最高。6 h NMP时的LEAP2基因表达与移植物功能受损相关:基因表达标记物的评估可作为评估 NMP 期间肝脏质量的可靠工具,并可预测移植后的早期移植物功能:该研究得到了 "纪念 Gabriel Salzner 博士基金会"、Tiroler Wissenschaftsfond、Jubiläumsfonds-Österreichhe Nationalbank 和 MUI Start 基金的支持。
Transcriptomic signatures during normothermic liver machine perfusion correspond with graft quality and predict the early graft function.
Background: A better understanding of the molecular events during liver normothermic machine perfusion (NMP) is warranted to develop a data-based approach for the identification of biomarkers representative of graft quality and posttransplant outcome. We analysed the dynamic transcriptional changes during NMP and linked them to clinical and biochemical parameters.
Methods: 50 livers subjected to NMP for up to 24 h were enrolled. Bulk RNA sequencing was performed in serial biopsies collected pre and during NMP, and after reperfusion. Perfusate was sampled to monitor liver function. qPCR and immunohistochemistry were performed to validate findings. Molecular profiles were compared between transplanted and non-transplanted livers, and livers with and without early allograft dysfunction.
Findings: Pathways related to immune and cell stress responses, cell trafficking and cell regulation were activated during NMP, while cellular metabolism was downregulated over time. Anti-inflammatory responses and genes involved in tissue remodelling were induced at later time-points, suggesting a counter-response to the immediate damage. NMP strongly induced a gene signature associated with ischemia-reperfusion injury. A 7-gene signature corresponds with the benchmarking criteria for transplantation or discard at 6 h NMP (area under curve 0.99). CD274 gene expression (encoding programmed cell-death ligand-1) showed the highest predictive value. LEAP2 gene expression at 6 h NMP correlated with impaired graft function.
Interpretation: Assessment of gene expression markers could serve as a reliable tool to evaluate liver quality during NMP and predicts early graft function after transplantation.
Funding: The research was supported by "In Memoriam Dr. Gabriel Salzner Stiftung", Tiroler Wissenschaftsfond, Jubiläumsfonds-Österreichische Nationalbank and MUI Start grant.
EBioMedicineBiochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology
CiteScore
17.70
自引率
0.90%
发文量
579
审稿时长
5 weeks
期刊介绍:
eBioMedicine is a comprehensive biomedical research journal that covers a wide range of studies that are relevant to human health. Our focus is on original research that explores the fundamental factors influencing human health and disease, including the discovery of new therapeutic targets and treatments, the identification of biomarkers and diagnostic tools, and the investigation and modification of disease pathways and mechanisms. We welcome studies from any biomedical discipline that contribute to our understanding of disease and aim to improve human health.