代谢组学确定精氨酸、苯丙氨酸和甘氨酸代谢紊乱是儿童特应性哮喘加重的鉴别特征。

Metabolomics identifies disturbances in arginine, phenylalanine, and glycine metabolism as differentiating features of exacerbating atopic asthma in children.

作者信息

Cottrill Kirsten A, Chandler Joshua D, Kobara Seibi, Stephenson Susan T, Mohammad Ahmad F, Tidwell Mallory, Mason Carrie, Van Dresser Morgan, Patrignani James, Kamaleswaran Rishikesan, Fitzpatrick Anne M, Grunwell Jocelyn R

机构信息

Department of Pediatrics, Emory University, Atlanta.

Children's Healthcare of Atlanta.

出版信息

J Allergy Clin Immunol Glob. 2023 Aug;2(3). doi: 10.1016/j.jacig.2023.100115. Epub 2023 May 5.

DOI:10.1016/j.jacig.2023.100115

PMID:37609569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10443927/

Abstract

BACKGROUND

Asthma exacerbations are highly prevalent in children, but only a few studies have examined the biologic mechanisms underlying exacerbations in this population.

OBJECTIVE

High-resolution metabolomics analyses were performed to understand the differences in metabolites in children with exacerbating asthma who were hospitalized in a pediatric intensive care unit for status asthmaticus. We hypothesized that compared with a similar population of stable outpatients with asthma, children with exacerbating asthma would have differing metabolite abundance patterns with distinct clustering profiles.

METHODS

A total of 98 children aged 6 through 17 years with exacerbating asthma (n = 69) and stable asthma (n = 29) underwent clinical characterization procedures and submitted plasma samples for metabolomic analyses. High-confidence metabolites were retained and utilized for pathway enrichment analyses to identify the most relevant metabolic pathways that discriminated between groups.

RESULTS

In all, 118 and 131 high-confidence metabolites were identified in positive and negative ionization mode, respectively. A total of 103 unique metabolites differed significantly between children with exacerbating asthma and children with stable asthma. In all, 8 significantly enriched pathways that were largely associated with alterations in arginine, phenylalanine, and glycine metabolism were identified. However, other metabolites and pathways of interest were also identified.

CONCLUSION

Metabolomic analyses identified multiple perturbed metabolites and pathways that discriminated children with exacerbating asthma who were hospitalized for status asthmaticus. These results highlight the complex biology of inflammation in children with exacerbating asthma and argue for additional studies of the metabolic determinants of asthma exacerbations in children because many of the identified metabolites of interest may be amenable to targeted interventions.

摘要

背景

哮喘急性发作在儿童中极为普遍，但仅有少数研究探讨了该人群急性发作背后的生物学机制。

目的

进行高分辨率代谢组学分析，以了解因哮喘持续状态入住儿科重症监护病房的哮喘急性发作儿童的代谢物差异。我们假设，与类似的稳定哮喘门诊患者群体相比，哮喘急性发作儿童会有不同的代谢物丰度模式和独特的聚类特征。

方法

共有98名6至17岁的哮喘急性发作儿童（n = 69）和稳定哮喘儿童（n = 29）接受了临床特征检查，并提交血浆样本进行代谢组学分析。保留高可信度代谢物并用于通路富集分析，以确定区分两组的最相关代谢通路。

结果

分别在正离子和负离子模式下鉴定出118种和131种高可信度代谢物。哮喘急性发作儿童和稳定哮喘儿童之间共有103种独特的代谢物存在显著差异。总共鉴定出8条显著富集的通路，这些通路主要与精氨酸、苯丙氨酸和甘氨酸代谢的改变有关。然而，还鉴定出了其他感兴趣的代谢物和通路。

结论

代谢组学分析确定了多种有扰动的代谢物和通路，这些代谢物和通路可区分因哮喘持续状态住院的哮喘急性发作儿童。这些结果突出了哮喘急性发作儿童炎症生物学的复杂性，并支持对儿童哮喘急性发作的代谢决定因素进行更多研究，因为许多已鉴定出的感兴趣的代谢物可能适合进行靶向干预。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d7e7/10510016/9e4a994cc434/gr1.jpg

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代谢组学确定精氨酸、苯丙氨酸和甘氨酸代谢紊乱是儿童特应性哮喘加重的鉴别特征。

Metabolomics identifies disturbances in arginine, phenylalanine, and glycine metabolism as differentiating features of exacerbating atopic asthma in children.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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