Metabolomic analysis of the human placenta reveals perturbations in amino acids, purine metabolites, and small organic acids in spontaneous preterm birth.

IF 3.8 3区 生物学 Q1 BIOLOGY EXCLI Journal Pub Date : 2024-02-13 eCollection Date: 2024-01-01 DOI:10.17179/excli2023-6785
Eva Cifkova, Rona Karahoda, Jaroslav Stranik, Cilia Abad, Marian Kacerovsky, Miroslav Lisa, Frantisek Staud
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Abstract

Spontaneous preterm delivery presents one of the most complex challenges in obstetrics and is a leading cause of perinatal morbidity and mortality. Although it is a common endpoint for multiple pathological processes, the mechanisms governing the etiological complexity of spontaneous preterm birth and the placental responses are poorly understood. This study examined placental tissues collected between May 2019 and May 2022 from a well-defined cohort of women who experienced spontaneous preterm birth (n = 72) and healthy full-term deliveries (n = 30). Placental metabolomic profiling of polar metabolites was performed using Ultra-High Performance Liquid Chromatography/Mass Spectrometry (UHPLC/MS) analysis. The resulting data were analyzed using multi- and univariate statistical methods followed by unsupervised clustering. A comprehensive metabolomic evaluation of the placenta revealed that spontaneous preterm birth was associated with significant changes in the levels of 34 polar metabolites involved in intracellular energy metabolism and biochemical activity, including amino acids, purine metabolites, and small organic acids. We found that neither the preterm delivery phenotype nor the inflammatory response explain the reported differential placental metabolome. However, unsupervised clustering revealed two molecular subtypes of placentas from spontaneous preterm pregnancies exhibiting differential enrichment of clinical parameters. We also identified differences between early and late preterm samples, suggesting distinct placental functions in early spontaneous preterm delivery. Altogether, we present evidence that spontaneous preterm birth is associated with significant changes in the level of placental polar metabolites. Dysregulation of the placental metabolome may underpin important (patho)physiological mechanisms involved in preterm birth etiology and long-term neonatal outcomes.

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人类胎盘的代谢组分析揭示了自发性早产中氨基酸、嘌呤代谢物和小分子有机酸的变化。
自发性早产是产科最复杂的挑战之一,也是围产期发病率和死亡率的主要原因。虽然早产是多种病理过程的共同终点,但人们对自发性早产的复杂病因机制和胎盘反应知之甚少。本研究对2019年5月至2022年5月期间收集的胎盘组织进行了研究,这些胎盘组织来自一个定义明确的自发性早产(72人)和健康足月分娩(30人)的产妇队列。使用超高效液相色谱/质谱(UHPLC/MS)分析法对极性代谢物进行了胎盘代谢组学分析。采用多变量和单变量统计方法对所得数据进行分析,然后进行无监督聚类。对胎盘进行的全面代谢组学评估显示,自发性早产与细胞内能量代谢和生化活动所涉及的 34 种极性代谢物(包括氨基酸、嘌呤代谢物和小分子有机酸)水平的显著变化有关。我们发现,早产表型和炎症反应都不能解释所报道的胎盘代谢组差异。然而,无监督聚类发现了自发性早产胎盘的两种分子亚型,它们表现出不同的临床参数富集。我们还发现了早期早产样本和晚期早产样本之间的差异,这表明早期自发性早产的胎盘功能各不相同。总之,我们提出的证据表明,自发性早产与胎盘极性代谢物水平的显著变化有关。胎盘代谢组的失调可能是早产病因和新生儿长期预后的重要(病理)生理机制的基础。
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来源期刊
EXCLI Journal
EXCLI Journal BIOLOGY-
CiteScore
8.00
自引率
2.20%
发文量
65
审稿时长
6-12 weeks
期刊介绍: EXCLI Journal publishes original research reports, authoritative reviews and case reports of experimental and clinical sciences. The journal is particularly keen to keep a broad view of science and technology, and therefore welcomes papers which bridge disciplines and may not suit the narrow specialism of other journals. Although the general emphasis is on biological sciences, studies from the following fields are explicitly encouraged (alphabetical order): aging research, behavioral sciences, biochemistry, cell biology, chemistry including analytical chemistry, clinical and preclinical studies, drug development, environmental health, ergonomics, forensic medicine, genetics, hepatology and gastroenterology, immunology, neurosciences, occupational medicine, oncology and cancer research, pharmacology, proteomics, psychiatric research, psychology, systems biology, toxicology
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