Detection of CFTR transgene mRNA expression in respiratory epithelium isolated from the murine nasal cavity (original) (raw)
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CFTR and differentiation markers expression in non-CF and delta F 508 homozygous CF nasal epithelium
Journal of Clinical Investigation, 1995
Human nasal polyps from non-CF and AF 508 homozygous CF patients were used to compare the expression of CFTR and markers of epithelial differentiation, such as cytokeratins (CK) and desmoplakins (DP), at the transcriptional and translational levels. mRNA expression was assessed by semiquantitative RT/PCR kinetic assays while the expression and distribution of proteins were evaluated by immunofluorescence analysis. In parallel, for each nasal tissue specimen, the importance of surface epithelium remodeling and inflammation was estimated after histological observations. Our results show that the steady-state levels of CFTR, CK13, CK18, CK14, or DP 1 mRNA transcripts in AF 508 CF nasal polyps were not significantly different from those of non-CF tissues. A variability in the CFTR mRNA transcript level and in the pattern of CFTR immunolabeling has been observed between the different tissue samples. However, no relationship was found between the level of CFTR mRNA transcripts and the CFTR protein expression and distribution, either in the non-CF or in the CF group. The histological observations of non-CF and CF nasal polyp tissue indicated that the huge variations in the expression and distribution of the CFTR protein were associated with the variations in the degree of surface epithelium remodeling and inflammation in the lamina propria. A surface epithelium, showing a slight basal cell hyperplasia phenotype associated with diffuse inflammation, was mainly characterized by a CFTR protein distribution at the apex of ciliated cells in both non-CF and CF specimens. In contrast, in a remodeled surface epithelium associated with severe inflammation, CFTR protein presented either a diffuse distribution in the cytoplasm of ciliated cells, or was absent. These results suggest that abnormal expression and distribution of the CFTR protein in CF airways is not only caused by CFTR mutations. Airway surface epithelium remodeling and inflammation could play a critical role in the posttranscriptional and/ or the posttranslational regulation of the CFIR protein expression in non-CF and CF airways.
CFTR Expression Analysis in Human Nasal Epithelial Cells by Flow Cytometry
PLoS ONE, 2011
Rationale: Unbiased approaches that study aberrant protein expression in primary airway epithelial cells at single cell level may profoundly improve diagnosis and understanding of airway diseases. We here present a flow cytometric procedure to study CFTR expression in human primary nasal epithelial cells from patients with Cystic Fibrosis (CF). Our novel approach may be important in monitoring of therapeutic responses, and better understanding of CF disease at the molecular level.
Apical CFTR Expression in Human Nasal Epithelium Correlates with Lung Disease in Cystic Fibrosis
PLoS ONE, 2013
Introduction: Although most individuals with cystic fibrosis (CF) develop progressive obstructive lung disease, disease severity is highly variable, even for individuals with similar CFTR mutations. Measurements of chloride transport as expression of CFTR function in nasal epithelial cells correlate with pulmonary function and suggest that F508del-CFTR is expressed at the apical membrane. However, an association between quantitative apical CFTR expression in nasal epithelium and CF disease severity is still missing.
Respiratory Research, 2013
Background: Microarray studies related to cystic fibrosis (CF) airway gene expression have gone some way in clarifying the complex molecular background of CF lung diseases, but have made little progress in defining a robust "molecular signature" associated with mutant CFTR expression. Disparate methodological and statistical analyses complicate comparisons between independent studies of the CF transcriptome, and although each study may be valid in isolation, the conclusions reached differ widely. Methods: We carried out a small-scale whole genome microarray study of gene expression in human native nasal epithelial cells from F508del-CFTR homozygotes in comparison to non-CF controls. We performed superficial comparisons with other microarray datasets in an attempt to identify a subset of regulated genes that could act as a signature of F508del-CFTR expression in native airway tissue samples. Results: Among the alterations detected in CF, up-regulation of genes involved in cell proliferation, and downregulation of cilia genes were the most notable. Other changes involved gene expression changes in calcium and membrane pathways, inflammation, defence response, wound healing and the involvement of estrogen signalling. Comparison of our data set with previously published studies allowed us to assess the consistency of independent microarray data sets, and shed light on the limitations of such snapshot studies in measuring a system as subtle and dynamic as the transcriptome. Comparison of in-vivo studies nevertheless yielded a small molecular CF signature worthy of future investigation. Conclusions: Despite the variability among the independent studies, the current CF transcriptome meta-analysis identified subsets of differentially expressed genes in native airway tissues which provide both interesting clues to CF pathogenesis and a possible CF biomarker.