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长时间心脏灌注过程中的动态代谢变化与心肌功能下降有关。

Dynamic Metabolic Changes During Prolonged Heart Perfusion Are Associated With Myocardial Functional Decline.

机构信息

Department of Chemistry, University of Waterloo, Waterloo, ON, Canada.

Jagiellonian Centre for Experimental Therapeutics (JCET), Jagiellonian University, Krakow, Poland.

出版信息

Front Immunol. 2022 Jun 24;13:859506. doi: 10.3389/fimmu.2022.859506. eCollection 2022.

DOI:10.3389/fimmu.2022.859506
PMID:35812438
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9267769/
Abstract

heart perfusion (ESHP) was developed to preserve and evaluate donated hearts in a perfused beating state. However, myocardial function declines during ESHP, which limits the duration of perfusion and the potential to expand the donor pool. In this research, we combine a novel, minimally-invasive sampling approach with comparative global metabolite profiling to evaluate changes in the metabolomic patterns associated with declines in myocardial function during ESHP. Biocompatible solid-phase microextraction (SPME) microprobes serving as chemical biopsy were used to sample heart tissue and perfusate in a translational porcine ESHP model and a small cohort of clinical cases. In addition, six core-needle biopsies of the left ventricular wall were collected to compare the performance of our SPME sampling method against that of traditional tissue-collection. Our state-of-the-art metabolomics platform allowed us to identify a large number of significantly altered metabolites and lipid species that presented comparable profile of alterations to conventional biopsies. However, significant discrepancies in the pool of identified analytes using two sampling methods (SPME vs. biopsy) were also identified concerning mainly compounds susceptible to dynamic biotransformation and most likely being a result of low-invasive nature of SPME. Overall, our results revealed striking metabolic alterations during prolonged 8h-ESHP associated with uncontrolled inflammation not counterbalanced by resolution, endothelial injury, accelerated mitochondrial oxidative stress, the disruption of mitochondrial bioenergetics, and the accumulation of harmful lipid species. In conclusion, the combination of perfusion parameters and metabolomics can uncover various mechanisms of organ injury and recovery, which can help differentiate between donor hearts that are transplantable from those that should be discarded.

摘要

心脏灌注(ESHP)的开发旨在保存和评估处于灌注跳动状态的捐赠心脏。然而,在 ESHP 期间心肌功能会下降,这限制了灌注的持续时间和扩大供体池的潜力。在这项研究中,我们结合了一种新颖的、微创的采样方法和比较全面的代谢物分析,以评估与 ESHP 期间心肌功能下降相关的代谢组学模式的变化。生物相容性固相微萃取(SPME)微探针作为化学活检用于在转化型猪 ESHP 模型和一小部分临床病例中采样心脏组织和灌流液。此外,还收集了左心室壁的六个核心针活检样本,以比较我们的 SPME 采样方法与传统组织采集方法的性能。我们最先进的代谢组学平台使我们能够识别大量显著改变的代谢物和脂质种类,这些代谢物和脂质种类的改变与传统活检具有相似的特征。然而,两种采样方法(SPME 与活检)所识别的分析物库之间也存在显著差异,主要涉及易发生动态生物转化的化合物,很可能是由于 SPME 的微创性质所致。总体而言,我们的研究结果揭示了与不受控制的炎症相关的长时间 8 小时 ESHP 期间引人注目的代谢变化,这些变化没有被解决所抵消,还有内皮损伤、加速的线粒体氧化应激、线粒体生物能学的破坏以及有害脂质种类的积累。总之,灌注参数和代谢组学的结合可以揭示器官损伤和恢复的各种机制,这有助于区分可移植和应丢弃的供体心脏。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e477/9267769/158b04bbc19a/fimmu-13-859506-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e477/9267769/158b04bbc19a/fimmu-13-859506-g007.jpg

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