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J Cell Physiol. 2019 Aug;234(8):14187-14197. doi: 10.1002/jcp.28115. Epub 2019 Jan 9.
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Prevalence, mortality and risk factors associated with very low birth weight preterm infants: an analysis of 33 years.极低出生体重早产儿的患病率、死亡率及相关危险因素:33 年分析。
J Pediatr (Rio J). 2020 May-Jun;96(3):327-332. doi: 10.1016/j.jped.2018.10.011. Epub 2018 Dec 12.
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Hyperoxia-induced Cellular Senescence in Fetal Airway Smooth Muscle Cells.氧诱导的胎儿气道平滑肌细胞衰老。
Am J Respir Cell Mol Biol. 2019 Jul;61(1):51-60. doi: 10.1165/rcmb.2018-0176OC.
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Recent advances in the pathogenesis of BPD.BPD 发病机制的最新进展。
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Surfactant, steroids and non-invasive ventilation in the prevention of BPD.表面活性物质、类固醇和无创通气在预防 BPD 中的作用。
Semin Perinatol. 2018 Nov;42(7):444-452. doi: 10.1053/j.semperi.2018.09.006. Epub 2018 Oct 2.
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The p38-activated ER stress-ATF6α axis mediates cellular senescence.p38 激活的内质网应激-ATF6α 轴介导细胞衰老。
FASEB J. 2019 Feb;33(2):2422-2434. doi: 10.1096/fj.201800836R. Epub 2018 Sep 27.
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Roles of endoplasmic reticulum stress and autophagy on H2O2‑induced oxidative stress injury in HepG2 cells.内质网应激和自噬在 H2O2 诱导的 HepG2 细胞氧化应激损伤中的作用。
Mol Med Rep. 2018 Nov;18(5):4163-4174. doi: 10.3892/mmr.2018.9443. Epub 2018 Sep 3.
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Sex-specific differences in primary neonatal murine lung fibroblasts exposed to hyperoxia in vitro: implications for bronchopulmonary dysplasia.体外高氧暴露对原代新生鼠肺成纤维细胞的性别特异性差异:对支气管肺发育不良的影响。
Physiol Genomics. 2018 Nov 1;50(11):940-946. doi: 10.1152/physiolgenomics.00075.2018. Epub 2018 Aug 31.
9
Metabolic Plasticity Enables Circadian Adaptation to Acute Hypoxia in Zebrafish Cells.代谢可塑性使斑马鱼细胞能够对急性缺氧进行昼夜节律适应。
Cell Physiol Biochem. 2018;46(3):1159-1174. doi: 10.1159/000489058. Epub 2018 Apr 16.
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The protein kinase D1-mediated classical protein secretory pathway regulates the Ras oncogene-induced senescence response.蛋白激酶 D1 介导的经典蛋白分泌途径调节 Ras 癌基因诱导的衰老反应。
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适度高氧诱导人胚肺成纤维细胞衰老。

Moderate hyperoxia induces senescence in developing human lung fibroblasts.

机构信息

Department of Neonatology, Shengjing Hospital of China Medical University, Shenyang City, China.

Department of Anesthesiology and Perioperative Medicine, Mayo Clinic, Rochester, Minnesota.

出版信息

Am J Physiol Lung Cell Mol Physiol. 2019 Nov 1;317(5):L525-L536. doi: 10.1152/ajplung.00067.2019. Epub 2019 Aug 14.

DOI:10.1152/ajplung.00067.2019
PMID:31411059
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6879905/
Abstract

Hyperoxia exposure in premature infants increases the risk of subsequent lung diseases, such as asthma and bronchopulmonary dysplasia. Fibroblasts help maintain bronchial and alveolar integrity. Thus, understanding mechanisms by which hyperoxia influences fibroblasts is critical. Cellular senescence is increasingly recognized as important to the pathophysiology of multiple diseases. We hypothesized that clinically relevant moderate hyperoxia (<50% O) induces senescence in developing fibroblasts. Using primary human fetal lung fibroblasts, we investigated effects of 40% O on senescence, endoplasmic reticulum (ER) stress, and autophagy pathways. Fibroblasts were exposed to 21% or 40% O for 7 days with etoposide as a positive control to induce senescence, evaluated by morphological changes, β-galactosidase activity, and DNA damage markers. Senescence-associated secretory phenotype (SASP) profile of inflammatory and profibrotic markers was further assessed. Hyperoxia decreased proliferation but increased cell size. SA-β-gal activity and DNA damage response, cell cycle arrest in G/M phase, and marked upregulation of phosphorylated p53 and p21 were noted. Reduced autophagy was noted with hyperoxia. mRNA expression of proinflammatory and profibrotic factors (TNF-α, IL-1, IL-8, MMP3) was elevated by hyperoxia or etoposide. Hyperoxia increased several SASP factors (PAI-1, IL1-α, IL1-β, IL-6, LAP, TNF-α). The secretome of senescent fibroblasts promoted extracellular matrix formation by naïve fibroblasts. Overall, we demonstrate that moderate hyperoxia enhances senescence in primary human fetal lung fibroblasts with reduced autophagy but not enhanced ER stress. The resulting SASP is profibrotic and may contribute to abnormal repair in the lung following hyperoxia.

摘要

早产儿暴露于高氧环境会增加随后发生肺部疾病(如哮喘和支气管肺发育不良)的风险。成纤维细胞有助于维持支气管和肺泡的完整性。因此,了解高氧影响成纤维细胞的机制至关重要。细胞衰老越来越被认为对多种疾病的病理生理学很重要。我们假设临床上相关的中度高氧(<50% O)会诱导发育中的成纤维细胞衰老。使用原代人胎儿肺成纤维细胞,我们研究了 40% O 对衰老、内质网(ER)应激和自噬途径的影响。将成纤维细胞暴露于 21%或 40% O 中 7 天,并用依托泊苷作为阳性对照诱导衰老,通过形态变化、β-半乳糖苷酶活性和 DNA 损伤标志物进行评估。进一步评估衰老相关分泌表型(SASP)的炎症和促纤维化标志物谱。高氧降低了增殖能力,但增加了细胞大小。SA-β-半乳糖酶活性和 DNA 损伤反应、G/M 期细胞周期阻滞以及磷酸化 p53 和 p21 的显著上调均有记录。高氧时观察到自噬减少。促炎和促纤维化因子(TNF-α、IL-1、IL-8、MMP3)的 mRNA 表达被高氧或依托泊苷上调。高氧增加了几种 SASP 因子(PAI-1、IL1-α、IL1-β、IL-6、LAP、TNF-α)。衰老成纤维细胞的分泌组促进了幼稚成纤维细胞的细胞外基质形成。总的来说,我们证明了中度高氧增强了原代人胎儿肺成纤维细胞的衰老,同时伴有自噬减少而 ER 应激未增强。由此产生的 SASP 具有促纤维化作用,可能导致高氧后肺的异常修复。