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Am J Respir Cell Mol Biol. 2021 Jul;65(1):70-80. doi: 10.1165/rcmb.2020-0289OC.
2
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本文引用的文献

1
Pulmonary mechanics and structural lung development after neonatal hyperoxia in mice.新生鼠高氧暴露后肺力学和结构肺发育。
Pediatr Res. 2020 Jun;87(7):1201-1210. doi: 10.1038/s41390-019-0723-y. Epub 2019 Dec 13.
2
European Respiratory Society guideline on long-term management of children with bronchopulmonary dysplasia.欧洲呼吸学会关于支气管肺发育不良患儿长期管理的指南。
Eur Respir J. 2020 Jan 2;55(1). doi: 10.1183/13993003.00788-2019. Print 2020 Jan.
3
Tracheomalacia in bronchopulmonary dysplasia: Trachealis hyper-relaxant responses to S-nitrosoglutathione in a hyperoxic murine model.支气管肺发育不良中的气管软化:高氧诱导的小鼠模型中 S-亚硝基谷胱甘肽导致气管过度松弛反应。
Pediatr Pulmonol. 2019 Dec;54(12):1989-1996. doi: 10.1002/ppul.24513. Epub 2019 Sep 4.
4
Interleukin-1 Receptor Antagonist Protects Newborn Mice Against Pulmonary Hypertension.白细胞介素-1 受体拮抗剂可保护新生小鼠免于肺动脉高压。
Front Immunol. 2019 Jul 11;10:1480. doi: 10.3389/fimmu.2019.01480. eCollection 2019.
5
Rodent models of respiratory control and respiratory system development-Clinical significance.呼吸控制与呼吸系统发育的啮齿动物模型——临床意义
Respir Physiol Neurobiol. 2019 Oct;268:103249. doi: 10.1016/j.resp.2019.06.006. Epub 2019 Jul 14.
6
Genetic Strain and Sex Differences in a Hyperoxia-Induced Mouse Model of Varying Severity of Bronchopulmonary Dysplasia.遗传背景和性别差异在不同严重程度的高氧诱导的支气管肺发育不良小鼠模型中的作用。
Am J Pathol. 2019 May;189(5):999-1014. doi: 10.1016/j.ajpath.2019.01.014. Epub 2019 Feb 19.
7
Oxygen Disrupts Human Fetal Lung Mesenchymal Cells. Implications for Bronchopulmonary Dysplasia.氧气破坏人胎儿肺间质细胞。对支气管肺发育不良的影响。
Am J Respir Cell Mol Biol. 2019 May;60(5):592-600. doi: 10.1165/rcmb.2018-0358OC.
8
Neonatal intermittent hypoxemia events are associated with diagnosis of bronchopulmonary dysplasia at 36 weeks postmenstrual age.新生儿间歇性低氧血症事件与 36 孕周后支气管肺发育不良的诊断相关。
Pediatr Res. 2019 Feb;85(3):318-323. doi: 10.1038/s41390-018-0253-z. Epub 2018 Dec 12.
9
Global, regional, and national estimates of levels of preterm birth in 2014: a systematic review and modelling analysis.2014 年全球、区域和国家早产儿发生率的估计值:系统评价和建模分析。
Lancet Glob Health. 2019 Jan;7(1):e37-e46. doi: 10.1016/S2214-109X(18)30451-0. Epub 2018 Oct 30.
10
Early inspired oxygen and intermittent hypoxemic events in extremely premature infants are associated with asthma medication use at 2 years of age.极早产儿早期吸氧和间歇性低氧事件与 2 岁时使用哮喘药物有关。
J Perinatol. 2019 Feb;39(2):203-211. doi: 10.1038/s41372-018-0264-y. Epub 2018 Oct 26.

支气管肺发育不良与肺动脉高压。平滑肌的作用。

Bronchopulmonary Dysplasia and Pulmonary Hypertension. The Role of Smooth Muscle .

机构信息

Division of Neonatology, Department of Pediatrics, and.

Division of Pediatric Pulmonology, Department of Pediatrics, University Hospitals Rainbow Babies & Children's Hospital and Case Western Reserve University School of Medicine, Case Western Reserve University, Cleveland, Ohio.

出版信息

Am J Respir Cell Mol Biol. 2021 Jul;65(1):70-80. doi: 10.1165/rcmb.2020-0289OC.

DOI:10.1165/rcmb.2020-0289OC
PMID:33780653
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8320118/
Abstract

Bronchopulmonary dysplasia (BPD) is characterized by alveolar simplification, airway hyperreactivity, and pulmonary hypertension. In our BPD model, we have investigated the metabolism of the bronchodilator and pulmonary vasodilator GSNO (-nitrosoglutathione). We have shown the GSNO catabolic enzyme encoded by (alcohol dehydrogenase-5), GSNO reductase, is epigenetically upregulated in hyperoxia. Here, we investigated the distribution of GSNO reductase expression in human BPD and created an animal model that recapitulates the human data. Blinded comparisons of GSNO reductase protein expression were performed in human lung tissues from infants and children with and without BPD. BPD phenotypes were evaluated in global () and conditional smooth muscle (smooth muscle/) knockout mice. GSNO reductase was prominently expressed in the airways and vessels of human BPD subjects. Compared with controls, expression was greater in BPD smooth muscle, particularly in vascular smooth muscle (2.4-fold;  = 0.003). The BPD mouse model of neonatal hyperoxia caused significant alveolar simplification, airway hyperreactivity, and right ventricular and vessel hypertrophy. Global mice were protected from all three aspects of BPD, whereas smooth muscle/ mice were only protected from pulmonary hypertensive changes. These data suggest is required for the development of BPD. Expression in the pulmonary vasculature is relevant to the pathophysiology of BPD-associated pulmonary hypertension. GSNO-mimetic agents or GSNO reductase inhibitors, both of which are currently in clinical trials for other conditions, could be considered for further study in BPD.

摘要

支气管肺发育不良(BPD)的特征是肺泡简化、气道高反应性和肺动脉高压。在我们的 BPD 模型中,我们研究了支气管扩张剂和肺血管扩张剂 GSNO(-亚硝基谷胱甘肽)的代谢。我们已经表明,高氧环境中,由 (乙醇脱氢酶-5)编码的 GSNO 分解代谢酶 GSNO 还原酶被表观遗传地上调。在这里,我们研究了 GSNO 还原酶在人类 BPD 中的表达分布,并创建了一个动物模型来重现人类数据。在有和没有 BPD 的婴儿和儿童的人肺组织中,对 GSNO 还原酶蛋白表达进行了盲法比较。在全球 () 和条件性平滑肌 (smooth muscle/) 敲除小鼠中评估了 BPD 表型。GSNO 还原酶在人类 BPD 受试者的气道和血管中表达明显。与对照组相比,BPD 平滑肌中的表达更高,尤其是血管平滑肌(2.4 倍;= 0.003)。新生高氧症的 BPD 小鼠模型导致明显的肺泡简化、气道高反应性和右心室和血管肥大。全球 小鼠对 BPD 的所有三个方面都有保护作用,而平滑肌/ 小鼠仅对肺动脉高压变化有保护作用。这些数据表明 对于 BPD 的发展是必需的。在肺血管中的表达与 BPD 相关的肺动脉高压的病理生理学相关。目前正在其他疾病的临床试验中的 GSNO 模拟物或 GSNO 还原酶抑制剂可以考虑进一步研究 BPD。