唐氏综合征患儿呼吸道合胞病毒感染期间气道上皮miR-155/BACH1/NRF2轴受损及缺氧基因表达

Impaired airway epithelial miR-155/BACH1/NRF2 axis and hypoxia gene expression during RSV infection in children with down syndrome.

作者信息

Welham Allison, Chorvinsky Elizabeth, Bhattacharya Surajit, Salka Kyle, Bera Betelehem Solomon, Admasu Woudasie, Straker Maria C, Gutierrez Maria J, Jaiswal Jyoti K, Nino Gustavo

机构信息

Division of Pediatric Pulmonary and Sleep Medicine, Children's National Hospital, Washington, DC, United States.

Center for Genetic Medicine Research, Children's National Research Institute, Washington, DC, United States.

出版信息

Front Pediatr. 2025 May 21;13:1553571. doi: 10.3389/fped.2025.1553571. eCollection 2025.

DOI:10.3389/fped.2025.1553571

PMID:40469089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12134073/

Abstract

BACKGROUND

Children with Down Syndrome (DS) are at high risk for severe respiratory syncytial virus (RSV) infections. DS is associated with impaired cellular responses to oxidative stress and hypoxia; however, these abnormalities have not been explored in trisomy 21 (TS21) airway epithelial cells (AECs) during RSV infection. Understanding these defects is key to identifying factors contributing to severe RSV infections in this high-risk group.

METHODS

AECs from children with and without DS were analyzed at baseline and after RSV infection to assess NRF2-induced protective genes against oxidative stress and hypoxia, including the enzyme heme oxygenase 1 (HO-1). To investigate DS-specific defects, we focused on miR-155 and BACH1, which regulate NRF2 signaling and HO-1 expression, and are both encoded on chromosome 21. RNA-seq analyses were performed to examine genome-wide hypoxia-related gene responses in control and TS21 AECs at baseline and after RSV infection.

RESULTS

Our findings show that miR-155 inhibits BACH1, leading to increased NRF2-driven HO-1 expression in euploid AECs. In contrast, TS21 AECs from children with DS exhibited impaired HO-1 induction following miR-155 treatment. This was attributed to reduced transcription of the HMOX1 gene, which encodes HO-1, along with global downregulation of hypoxia response genes in DS at baseline and after RSV infection in TS21 AECs.

CONCLUSIONS

Severe RSV infections in children with DS may be linked to intrinsic defects in AEC responses to hypoxia, including NRF2-driven cytoprotective enzymes like HO-1. These findings offer new mechanistic insights into RSV pathophysiology and potential therapeutic targets in children with DS.

摘要

背景

唐氏综合征（DS）患儿发生严重呼吸道合胞病毒（RSV）感染的风险很高。DS与细胞对氧化应激和缺氧的反应受损有关；然而，在RSV感染期间，21三体（TS21）气道上皮细胞（AECs）中的这些异常情况尚未得到研究。了解这些缺陷是确定导致这一高危人群发生严重RSV感染的因素的关键。

方法

对患有和未患有DS的儿童的AECs在基线时和RSV感染后进行分析，以评估NRF2诱导的针对氧化应激和缺氧的保护基因，包括血红素加氧酶1（HO-1）。为了研究DS特异性缺陷，我们重点关注了调节NRF2信号传导和HO-1表达且均由21号染色体编码的miR-155和BACH1。进行RNA测序分析以检查对照和TS21 AECs在基线时和RSV感染后的全基因组缺氧相关基因反应。

结果

我们的研究结果表明，miR-155抑制BACH1，导致整倍体AECs中NRF2驱动的HO-1表达增加。相比之下，来自DS患儿的TS21 AECs在miR-155处理后HO-1诱导受损。这归因于编码HO-1的HMOX1基因转录减少，以及TS21 AECs在基线时和RSV感染后DS中缺氧反应基因的整体下调。

结论

DS患儿的严重RSV感染可能与AECs对缺氧反应的内在缺陷有关，包括NRF2驱动的细胞保护酶如HO-1。这些发现为RSV病理生理学和DS患儿潜在治疗靶点提供了新的机制见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a66a/12134073/386884e43173/fped-13-1553571-g001.jpg

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唐氏综合征患儿呼吸道合胞病毒感染期间气道上皮miR-155/BACH1/NRF2轴受损及缺氧基因表达

Impaired airway epithelial miR-155/BACH1/NRF2 axis and hypoxia gene expression during RSV infection in children with down syndrome.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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