Impact of hypoxia in Cystic Fibrosis bronchial epithelial cells: Focus on CFTR and TRPA1 channels

IF 0.5 4区 医学 Q4 RESPIRATORY SYSTEM Revue des maladies respiratoires Pub Date : 2024-03-01 DOI:10.1016/j.rmr.2024.01.089
K. Pascarel, J. Colas, T. Carrez, S. Mirval, C. Barrault, F. Becq, C. Vandebrouck
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Abstract

Introduction

Cystic Fibrosis (CF) is an autosomal and recessive disease caused by the mutation of a gene located on the chromosome 7: CFTR (Cystic Fibrosis Transmembrane conductance Regulator). Its codes for CFTR, a protein which plays a role in mucus homeostasis by transporting both chloride ions and water. The most common mutation F508del-CFTR, leads to the absence and malfunction of CFTR at the surface of epithelial cells in various organs especially in lungs. It results in the loss of the mucus clearance properties in the airways, which will cause the obstruction of bronchi and alveola over time. The oxygen (O2) delivery, crucial for aerobic metabolism, is less effective especially for the lung's epithelial cells whose environment is gradually becoming hypoxic. The inability of lungs to realise haematosis, at tissue level is commonly named the respiratory failure.

Our project aims to characterise the impact of hypoxia on ion channels, especially CFTR and TRPA1 (an oxygen sensible calcium channel).

Methods

Cystic Fibrosis Bronchial Epithelial (CFBE) cells-wt (WT) and CFBE F508del (DF) are cultivated in a controlled hypoxic atmosphere (1% O2). Protein expression and quantification have been realised by western blot. CFTR activity have been measured by automated patch-clamp (whole cell recording, WCR) and Ussing chamber while the activity of TRPA1 have been recorded using the Fluo4-AM probe. TRPA1 localisation has been studied by immunostaining.

Results

Here, we show that the change from normoxia (21% O2) to hypoxia (1% O2) is able to induce a fast cellular response with the accumulation of HIF-1α (Hypoxia Inducible Factor) in only 6 hours in CFBE WT, CFBE-DF and CFBE-DF corrected by the tri-therapy Kaftrio® (Elexacaftor/Tezacaftor/Ivacaftor, ETI). We also observed, that HIF-1α accumulated is reduced in non-corrected CFBE-F508del. Regarding CFTR, our results shows that only F508del-CFTR is impacted by hypoxia at protein level and activity, despite the correction by ETI. Automated WCR patch-clamp and Ussing chamber recordings both show that Kaftrio® corrected F508del-CFTR activity decreases 24 hours after hypoxia induction. F508del-CFTR currents are decreased by 43% in whole cell configuration while short-circuit current (Isc) CFTR dependent are diminished by around 48%. Concerning TRPA1, hypoxia does not impact the protein accumulation but instead decrease the channel activity by 49% in CFBE-wt, 40% in CFBE-F508del non corrected and 30% when corrected by ETI. Finally, it seems that hypoxia plays a role in TRPA1 location inducing its relocation close to the plasma membrane.

Conclusion

Our data show a reduced amount of CFTR protein accumulated in CFBE F508del corrected or not, which was not observed on the WT form. Electrophysiologic assays show a clear impact of hypoxia on F508del-CFTR activity at a cellular level and at a pseudo-epithelium level. Despite a lack of impact of hypoxia on TRPA1 protein accumulation, both activity (decreased by hypoxia) and his location (closer to the plasma membrane) are affected by a lower O2 concentration. It is also important to note that in hypoxic state, ETI is not as efficient as it could be in normoxia, which raises questions about the intake conditions of treatment for patients.

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低氧对囊性纤维化支气管上皮细胞的影响:聚焦 CFTR 和 TRPA1 通道
导言囊性纤维化(CF)是一种常染色体隐性遗传病,由位于第 7 号染色体上的一个基因突变引起:CFTR(囊性纤维化跨膜传导调节器)基因突变所致。该基因编码的 CFTR 蛋白通过运输氯离子和水在粘液平衡中发挥作用。最常见的突变是 F508del-CFTR,它会导致各器官(尤其是肺部)上皮细胞表面 CFTR 的缺失和功能障碍。它导致呼吸道失去清除粘液的功能,久而久之会造成支气管和肺泡阻塞。对有氧代谢至关重要的氧气(O2)输送效率降低,尤其是对环境逐渐缺氧的肺上皮细胞而言。我们的项目旨在描述缺氧对离子通道的影响,特别是对 CFTR 和 TRPA1(对氧敏感的钙通道)的影响。蛋白表达和定量通过 Western 印迹法实现。CFTR 活性是通过自动膜片钳(全细胞记录,WCR)和乌星室测量的,而 TRPA1 的活性则是通过 Fluo4-AM 探针记录的。结果我们发现,在 CFBE WT、CFBE-DF 和 CFBE-DF 中,从常氧(21% O2)到缺氧(1% O2)的变化能够诱导细胞快速反应,HIF-1α(缺氧诱导因子)在短短 6 个小时内就会在三联疗法 Kaftrio®(Elexacaftor/Tezacaftor/Ivacaftor,ETI)校正的 CFBE-DF 中积累。我们还观察到,在未校正的 CFBE-F508del 中,HIF-1α 的累积量减少。关于 CFTR,我们的研究结果表明,尽管通过 ETI 进行了校正,但只有 F508del-CFTR 在蛋白质水平和活性方面受到缺氧的影响。自动 WCR 膜片钳和乌星室记录均显示,缺氧诱导 24 小时后,经 Kaftrio® 校正的 F508del-CFTR 活性降低。在全细胞配置中,F508del-CFTR 电流减少了 43%,而依赖于 CFTR 的短路电流(Isc)减少了约 48%。关于 TRPA1,缺氧不会影响蛋白质的积累,但会使 CFBE-wt 的通道活性降低 49%,CFBE-F508del 未校正时降低 40%,经 ETI 校正后降低 30%。最后,缺氧似乎对 TRPA1 的位置起了作用,诱导其迁移到靠近质膜的位置。电生理学实验表明,在细胞水平和假上皮水平上,缺氧对 F508del-CFTR 活性有明显影响。尽管缺氧对 TRPA1 蛋白的积累没有影响,但其活性(因缺氧而降低)和位置(更靠近质膜)都会受到较低氧气浓度的影响。同样重要的是,在缺氧状态下,ETI 的效率不如在正常缺氧状态下,这就对患者的治疗条件提出了疑问。
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来源期刊
Revue des maladies respiratoires
Revue des maladies respiratoires 医学-呼吸系统
CiteScore
1.10
自引率
16.70%
发文量
168
审稿时长
4-8 weeks
期刊介绍: La Revue des Maladies Respiratoires est l''organe officiel d''expression scientifique de la Société de Pneumologie de Langue Française (SPLF). Il s''agit d''un média professionnel francophone, à vocation internationale et accessible ici. La Revue des Maladies Respiratoires est un outil de formation professionnelle post-universitaire pour l''ensemble de la communauté pneumologique francophone. Elle publie sur son site différentes variétés d''articles scientifiques concernant la Pneumologie : - Editoriaux, - Articles originaux, - Revues générales, - Articles de synthèses, - Recommandations d''experts et textes de consensus, - Séries thématiques, - Cas cliniques, - Articles « images et diagnostics », - Fiches techniques, - Lettres à la rédaction.
期刊最新文献
[Evaluation of local anesthesia with buffered Xylocaine in pleural procedures: The DOULAPLUX study]. Editorial board Contents Sommaire Bénéfice de la simulation dans l’apprentissage de l’endoscopie bronchique des internes et jeunes médecins
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