Asma A Elashi, Aleem Razzaq, Najeha Anwardeen, Khaled Naja, Mashael Alshafai, Ilhame Diboun, Omar Albagha, Mohamed A Elrayess
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引用次数: 0
Abstract
N-lactoyl-amino acids (Lac-AA) are emerging as important metabolites with diverse physiological roles. This study integrates metabolomics and genomics to investigate the genetic determinants and clinical relevance of three Lac-AA: N-Lactoyl phenylalanine (Lac-Phe), N-Lactoyl tyrosine (Lac-Tyr), and N-Lactoyl valine (Lac-Tyr). We conducted a metabolome-wide association study (mGWAS) on 2811 participants followed by a phenome-wide association study (PheWAS) and pathway enrichment analysis. Our mGWAS revealed modest genetic contributions to Lac-AA levels, with genome-wide significant loci identified for Lac-Tyr and Lac-Val, but not for Lac-Phe. PheWAS analysis linked these genetic variants to key clinical traits, including white blood cell count, platelet count, and glucose levels. Pathway enrichment highlighted the involvement of Lac-AA in immune-metabolic crosstalk, particularly in inflammation and energy metabolism. These findings suggest that Lac-AA levels are primarily influenced by dynamic metabolic or inflammatory states rather than fixed genetic factors. Our results underscore the potential of Lac-AA as metabolic sensors and biomarkers at the intersection of cellular energy states and systemic inflammation, opening new avenues for research in metabolic and inflammatory disorders.
n -乳基氨基酸(Lac-AA)作为重要的代谢产物,具有多种生理作用。本研究结合代谢组学和基因组学研究了三种Lac-AA: n -乳酸基苯丙氨酸(Lac-Phe)、n -乳酸基酪氨酸(Lac-Tyr)和n -乳酸基缬氨酸(Lac-Tyr)的遗传决定因素和临床相关性。我们对2811名参与者进行了代谢组全关联研究(mGWAS),随后进行了全表型关联研究(PheWAS)和途径富集分析。我们的mGWAS发现遗传对Lac-AA水平的影响不大,在全基因组范围内发现了Lac-Tyr和Lac-Val的显著位点,但没有发现Lac-Phe的显著位点。PheWAS分析将这些基因变异与关键的临床特征联系起来,包括白细胞计数、血小板计数和血糖水平。途径富集强调了Lac-AA参与免疫代谢串扰,特别是炎症和能量代谢。这些发现表明Lac-AA水平主要受动态代谢或炎症状态的影响,而不是固定的遗传因素。我们的研究结果强调了Lac-AA作为细胞能量状态和全身性炎症交叉点的代谢传感器和生物标志物的潜力,为代谢和炎症疾病的研究开辟了新的途径。
期刊介绍:
Human Molecular Genetics concentrates on full-length research papers covering a wide range of topics in all aspects of human molecular genetics. These include:
the molecular basis of human genetic disease
developmental genetics
cancer genetics
neurogenetics
chromosome and genome structure and function
therapy of genetic disease
stem cells in human genetic disease and therapy, including the application of iPS cells
genome-wide association studies
mouse and other models of human diseases
functional genomics
computational genomics
In addition, the journal also publishes research on other model systems for the analysis of genes, especially when there is an obvious relevance to human genetics.