对小儿急性呼吸窘迫综合征患儿气道液暴露的单核细胞进行 RNA 测序分析。
RNA Sequencing Analysis of Monocytes Exposed to Airway Fluid From Children With Pediatric Acute Respiratory Distress Syndrome.
机构信息
Department of Pediatrics/Division of Critical Care Medicine, Egleston Hospital, Children's Healthcare of Atlanta, Atlanta, GA.
Department of Pediatrics, Emory University School of Medicine, Atlanta, GA.
出版信息
Crit Care Explor. 2024 Oct 4;6(10):e1125. doi: 10.1097/CCE.0000000000001125. eCollection 2024 Oct 1.
OBJECTIVES
Monocytes are plastic cells that assume different polarization states that can either promote inflammation or tissue repair and inflammation resolution. Polarized monocytes are partially defined by their transcriptional profiles that are influenced by environmental stimuli. The airway monocyte response in pediatric acute respiratory distress syndrome (PARDS) is undefined. To identify differentially expressed genes and networks using a novel transcriptomic reporter assay with donor monocytes exposed to the airway fluid of intubated children with and at-risk for PARDS. To determine differences in gene expression at two time points using the donor monocyte assay exposed to airway fluid from intubated children with PARDS obtained 48-96 hours following initial tracheal aspirate sampling.
DESIGN
In vitro pilot study carried out using airway fluid supernatant.
SETTING
Academic 40-bed PICU.
PARTICIPANTS
Fifty-seven children: 44 children with PARDS and 13 children at-risk for PARDS.
INTERVENTIONS
None.
MEASUREMENTS AND MAIN RESULTS
We performed bulk RNA sequencing using a transcriptomic reporter assay of monocytes exposed to airway fluid from intubated children to discover gene networks differentiating PARDS from at-risk for PARDS and those differentiating mild/moderate from severe PARDS. We also report differences in gene expression in children with PARDS 48-96 hours following initial tracheal aspirate sampling. We found that interleukin (IL)-10, IL-4, and IL-13, cytokine/chemokine signaling, and the senescence-associated secretory phenotype are upregulated in monocytes exposed to airway fluid from intubated children with PARDS compared with those at-risk for PARDS. Signaling by NOTCH, histone deacetylation/acetylation, DNA methylation, chromatin modifications (B-WICH complex), and RNA polymerase I transcription and its associated regulatory apparatus were upregulated in children with PARDS 48-96 hours following initial tracheal aspirate sampling.
CONCLUSIONS
We identified gene networks important to the PARDS airway immune response using bulk RNA sequencing from a monocyte reporter assay that exposed monocytes to airway fluid from intubated children with and at-risk for PARDS. Mechanistic investigations are needed to validate our findings.
目的
单核细胞是一种具有可塑性的细胞,可呈现出不同的极化状态,既能促进炎症,也能促进组织修复和炎症消退。极化的单核细胞部分由其转录谱定义,转录谱受环境刺激的影响。儿科急性呼吸窘迫综合征(PARDS)患者气道中的单核细胞反应尚未明确。本研究使用一种新型的转录组报告分析方法,通过将供体单核细胞暴露于接受气管插管的 PARDS 患儿和有 PARDS 风险的患儿的气道液中,以鉴定差异表达的基因和网络。通过供体单核细胞分析,在 PARDS 患儿初始气管抽吸后 48-96 小时获得的 PARDS 患儿气道液中,确定两个时间点的基因表达差异。
设计
在体外使用气道液上清液进行的初步研究。
地点
学术型 40 张病床的儿科重症监护病房。
参与者
57 名患儿:44 名患有 PARDS 的患儿和 13 名有 PARDS 风险的患儿。
干预措施
无。
测量和主要结果
我们使用一种转录组报告分析方法,通过将暴露于气管插管患儿气道液中的单核细胞进行批量 RNA 测序,以发现区分 PARDS 和有 PARDS 风险的基因网络,并发现区分轻度/中度 PARDS 和重度 PARDS 的基因网络。我们还报告了初始气管抽吸后 48-96 小时 PARDS 患儿的基因表达差异。我们发现,与有 PARDS 风险的患儿相比,暴露于 PARDS 患儿气道液中的单核细胞中白细胞介素(IL)-10、IL-4 和 IL-13、细胞因子/趋化因子信号转导以及衰老相关分泌表型上调。NOTCH 信号转导、组蛋白去乙酰化/乙酰化、DNA 甲基化、染色质修饰(B-WICH 复合物)以及 RNA 聚合酶 I 转录及其相关调控装置在初始气管抽吸后 48-96 小时的 PARDS 患儿中上调。
结论
我们使用一种单核细胞报告分析方法,通过将单核细胞暴露于接受气管插管的 PARDS 患儿和有 PARDS 风险的患儿的气道液中,从批量 RNA 测序中鉴定出与 PARDS 气道免疫反应相关的重要基因网络。需要进行机制研究来验证我们的发现。
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