Coffee consumption and total mortality: a meta-analysis of twenty prospective cohort studies

Airway epithelial basal cells are known to be critical for regenerating injured epithelium and maintaining tissue homeostasis. Recent evidence suggests that the ␣7 nicotinic acetylcholine receptor (nAChR), which is highly permeable to Ca 2؉ , is involved in lung morphogenesis. Here, we have investigated the potential role of the ␣7 nAChR in the regulation of airway epithelial basal cell proliferation and the differentiation of the human airway epithelium. In vivo during fetal development and in vitro during the regeneration of the human airway epithelium, ␣7 nAChR expression coincides with epithelium differentiation. Inactivating ␣7 nAChR function in vitro increases cell proliferation during the initial steps of the epithelium regeneration, leading to epithelial alterations such as basal cell hyperplasia and squamous metaplasia, remodeling observed in many bronchopulmonary diseases. The regeneration of the airway epithelium after injury in ␣7 The respiratory epithelium, which is constantly exposed to airborne pollutants, is frequently injured, which results in altered epithelial functions. To restore these functions, the respiratory epithelium must undergo rapid repair via epithelial cell spreading and migration and regenerate its structure via basal cell proliferation and differentiation.

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Contribution of α7 nicotinic receptor to airway epithelium dysfunction under nicotine exposure

Maouche

Medjber

Zahm

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Loss or dysfunction of the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) leads to impairment of airway mucus transport and to chronic lung diseases resulting in progressive respiratory failure. Nicotinic acetylcholine receptors (nAChRs) bind nicotine and nicotine-derived nitrosamines and thus mediate many of the tobacco-related deleterious effects in the lung. Here we identify α7 nAChR as a key regulator of CFTR in the airways. The airway epithelium in α7 knockout mice is characterized by a higher transepithelial potential difference, an increase of amiloride-sensitive apical Na + absorption, a defective cAMP-dependent Cl − conductance, higher concentrations of Na + , Cl − , K + , and Ca 2+ in secretions, and a decreased mucus transport, all relevant to a deficient CFTR activity. Moreover, prolonged nicotine exposure mimics the absence of α7 nAChR in mice or its inactivation in vitro in human airway epithelial cell cultures. The functional coupling of α7 nAChR to CFTR occurs through Ca 2+ entry and activation of adenylyl cyclases, protein kinase A, and PKC. α7 nAChR, CFTR, and adenylyl cyclase-1 are physically and functionally associated in a macromolecular complex within lipid rafts at the apical membrane of surface and glandular airway epithelium. This study establishes the potential role of α7 nAChR in the regulation of CFTR function and in the pathogenesis of smoking-related chronic lung diseases.chloride efflux | ciliated cell | mouse | mucociliary clearance | submucosal gland

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Role of nicotinic acetylcholine receptors in cell proliferation and tumour invasion in broncho-pulmonary carcinomas

et al. 2015

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Re-expression of DNA methylation-silenced CD44 gene in a resistant NB4 cell line: rescue of CD44-dependent cell death by cAMP

et al. 2007

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In the acute promyelocytic leukemia cell line, NB4, activation of the CD44 receptor triggers apoptosis. This pathway does not operate in the retinoid-maturation-resistant NB4-LR1 subclone. In this work, we show that the CD44 gene is silenced in these cells. The molecular defect involves DNA methylation of cytosine phosphate guanine (CpG) island and underacetylation of histone H3 at CD44 promoter. The methylating inhibitor 5-aza-CdR and cyclic AMP (cAMP) reverse the CD44 gene silencing. Contrary to 5-aza-CdR, cAMP does not induce DNA demethylation or histone modification at the CD44 promoter, whereas an H3pS10/AcK14 dual modification is observed on a global level. cAMP also induces the expression of c-Jun transcription factor and its recruitment at the CD44 promoter. Chromatin immunoprecipitation assays further show the association of brahma (Brm), a subunit of SWI/SNF chromatinremodelling complex involved in the crosstalk between transcription and RNA polymerase II (RNA Pol II) processing, as well as the binding of phosphorylated RNA Pol II to the proximal promoter region of CD44. Finally, our study reveals that cAMP re-establishes the CD44-mediated cell death signalling. We propose that one of the actions of cAMP in restoring normal cell phenotype of leukaemia cells may consist in a broad trans-reactivation of silenced genes, despite marked hypermethylation of their promoters, as illustrated here with CD44 re-expression.

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Les dystonies primitives non liées au gène DYT1 : variabilité phénotypique et difficultés diagnostiques

et al. 2017

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Kahina Medjber

α7 Nicotinic Acetylcholine Receptor Regulates Airway Epithelium Differentiation by Controlling Basal Cell Proliferation

Contribution of α7 nicotinic receptor to airway epithelium dysfunction under nicotine exposure

Role of nicotinic acetylcholine receptors in cell proliferation and tumour invasion in broncho-pulmonary carcinomas

Re-expression of DNA methylation-silenced CD44 gene in a resistant NB4 cell line: rescue of CD44-dependent cell death by cAMP

Les dystonies primitives non liées au gène DYT1 : variabilité phénotypique et difficultés diagnostiques

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