Emmanuelle Brochiero scite author profile

Sodium absorption by an amiloride-sensitive channel is the main driving force of lung liquid clearance at birth and lung edema clearance in adulthood. In this study, we tested whether tumor necrosis factor-α (TNF-α), a proinflammatory cytokine involved in several lung pathologies, could modulate sodium absorption in cultured alveolar epithelial cells. We found that TNF-α decreased the expression of the α-, β-, and γ-subunits of epithelial sodium channel (ENaC) mRNA to 36, 43, and 16% of the controls after 24-h treatment and reduced to 50% the amount of α-ENaC protein in these cells. There was no impact, however, on α1and β1Na+-K+-ATPase mRNA expression. Amiloride-sensitive current and ouabain-sensitive Rb+uptake were reduced, respectively, to 28 and 39% of the controls. A strong correlation was found at different TNF-α concentrations between the decrease of amiloride-sensitive current and α-ENaC mRNA expression. All these data show that TNF-α, a proinflammatory cytokine present during lung infection, has a profound influence on the capacity of alveolar epithelial cells to transport sodium.

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EGF and K⁺ channel activity control normal and cystic fibrosis bronchial epithelia repair

Trinh¹,

Privé²,

Maillé³

et al. 2008

American Journal of Physiology-Lung Cellular and Molecular Phys

121

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Improvement of defective cystic fibrosis airway epithelial wound repair after CFTR rescue

et al. 2012

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Airway damage and remodelling are important components of lung pathology progression in cystic fibrosis (CF). Although repair mechanisms are engaged to restore the epithelial integrity, these processes are obviously insufficient to maintain lung function in CF airways. Our aims were therefore to study how the basic cystic fibrosis transmembrane conductance regulator (CFTR) defect could impact epithelial wound healing and to determine if CFTR correction could improve it.Wound-healing experiments, as well as cell migration and proliferation assays, were performed to study the early phases of epithelial repair in human CF and non-CF airway cells. CFTR function was evaluated using CFTR small interferring (si)RNA and inhibitor GlyH101 in non-CF cells, and conversely after CFTR rescue with the CFTR corrector VRT-325 in CF cells.Wound-healing experiments first showed that airway cells from CF patients repaired slower than non-CF cells. CFTR inhibition or silencing in non-CF primary airway cells significantly inhibited wound closure. GlyH101 also decreased cell migration and proliferation. Interestingly, wild-type CFTR transduction in CF airway cell lines or CFTR correction with VRT-325 in CFBE-DF508 and primary CF bronchial monolayers significantly improved wound healing.Altogether our results demonstrated that functional CFTR plays a critical role in wound repair, and CFTR correction may represent a novel strategy to promote the airway repair processes in CF.

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