Jeng Haur Chen scite author profile

Mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR) anion channel cause the autosomal recessive disease, cystic fibrosis (CF). The most common mutation is ΔF508, which deletes phenylalanine508. In vitro studies indicate that CFTR-ΔF508 is misprocessed, though in vivo consequences of the mutation are uncertain. To better understand effects of the ΔF508 mutation, we produced CFTRΔF508/ΔF508 pigs. Our biochemical, immunocytochemical and electrophysiological data on CFTR-ΔF508 in newborn pigs paralleled in vitro results. They also indicated that CFTRΔF508/ΔF508 airway epithelia retain a small residual CFTR conductance; maximal stimulation produced ~6% of wild-type function. Interestingly, cAMP agonists were less potent at stimulating current in CFTRΔF508/ΔF508 epithelia, suggesting that quantitative tests of maximal anion current may overestimate transport under physiological conditions. Despite residual CFTR function, four older CFTRΔF508/ΔF508 pigs developed lung disease strikingly similar to human CF. These results suggest that this limited CFTR activity is insufficient to prevent lung or gastrointestinal disease in CF pigs. These data also suggest that studies of recombinant CFTR-ΔF508 misprocessing predict in vivo behavior, which validates its use in biochemical and drug discovery experiments. These findings help elucidate the molecular pathogenesis of the common CF mutation and will guide strategies for developing new therapeutics.

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Intestinal CFTR expression alleviates meconium ileus in cystic fibrosis pigs

Stoltz¹,

Rokhlina²,

Ernst³

et al. 2013

J. Clin. Invest.

115

127

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Cystic fibrosis (CF) pigs develop disease with features remarkably similar to those in people with CF, including exocrine pancreatic destruction, focal biliary cirrhosis, micro-gallbladder, vas deferens loss, airway disease, and meconium ileus. Whereas meconium ileus occurs in 15% of babies with CF, the penetrance is 100% in newborn CF pigs. We hypothesized that transgenic expression of porcine CF transmembrane conductance regulator (pCFTR) cDNA under control of the intestinal fatty acid-binding protein (iFABP) promoter would alleviate the meconium ileus. We produced 5 CFTR -/-;TgFABP>pCFTR lines. In 3 lines, intestinal expression of CFTR at least partially restored CFTR-mediated anion transport and improved the intestinal phenotype. In contrast, these pigs still had pancreatic destruction, liver disease, and reduced weight gain, and within weeks of birth, they developed sinus and lung disease, the severity of which varied over time. These data indicate that expressing CFTR in intestine without pancreatic or hepatic correction is sufficient to rescue meconium ileus. Comparing CFTR expression in different lines revealed that approximately 20% of wild-type CFTR mRNA largely prevented meconium ileus. This model may be of value for understanding CF pathophysiology and testing new preventions and therapies.

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Human cystic fibrosis airway epithelia have reduced Cl ⁻ conductance but not increased Na ⁺ conductance

Itani

Chen

Karp

et al. 2011

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

115

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Loss of cystic fibrosis transmembrane conductance regulator (CFTR) anion channel function causes cystic fibrosis (CF) lung disease. CFTR is expressed in airway epithelia, but how CF alters electrolyte transport across airway epithelia has remained uncertain. Recent studies of a porcine model showed that in vivo, excised, and cultured CFTR −/− and CFTR ΔF508/ΔF508 airway epithelia lacked anion conductance, and they did not hyperabsorb Na + . Therefore, we asked whether Cl − and Na + conductances were altered in human CF airway epithelia. We studied differentiated primary cultures of tracheal/bronchial epithelia and found that transepithelial conductance (Gt) under basal conditions and the cAMP-stimulated increase in Gt were markedly attenuated in CF epithelia compared with non-CF epithelia. These data reflect loss of the CFTR anion conductance. In CF and non-CF epithelia, the Na + channel inhibitor amiloride produced similar reductions in Gt and Na + absorption, indicating that Na + conductance in CF epithelia did not exceed that in non-CF epithelia. Consistent with previous reports, adding amiloride caused greater reductions in transepithelial voltage and short-circuit current in CF epithelia than in non-CF epithelia; these changes are attributed to loss of a Cl − conductance. These results indicate that Na + conductance was not increased in these cultured CF tracheal/bronchial epithelia and point to loss of anion transport as key to airway epithelial dysfunction in CF.chloride secretion | epithelial Na + channels

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The patch-clamp and planar lipid bilayer techniques: powerful and versatile tools to investigate the CFTR Cl− channel

Sheppard

Gray

Gong

et al. 2004

Journal of Cystic Fibrosis

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Using the patch-clamp (PC) and planar lipid bilayer (PLB) techniques the molecular behaviour of the cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel can be visualised in real-time. The PC technique is a highly powerful and versatile method to investigate CFTR's mechanism of action, interaction with other proteins and physiological role. Using the PLB technique, the structure and function of CFTR can be investigated free from the influence of other proteins. Here we discuss how these techniques are employed to investigate the CFTR Cl- channel with special emphasis on its permeation, conduction and gating properties.

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Jeng Haur Chen

The Δ F508 Mutation Causes CFTR Misprocessing and Cystic Fibrosis–Like Disease in Pigs

Intestinal CFTR expression alleviates meconium ileus in cystic fibrosis pigs

Human cystic fibrosis airway epithelia have reduced Cl ⁻ conductance but not increased Na ⁺ conductance

The patch-clamp and planar lipid bilayer techniques: powerful and versatile tools to investigate the CFTR Cl− channel

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About

Jeng Haur Chen

The Δ F508 Mutation Causes CFTR Misprocessing and Cystic Fibrosis–Like Disease in Pigs

Intestinal CFTR expression alleviates meconium ileus in cystic fibrosis pigs

Human cystic fibrosis airway epithelia have reduced Cl − conductance but not increased Na + conductance

The patch-clamp and planar lipid bilayer techniques: powerful and versatile tools to investigate the CFTR Cl− channel

Contact Info

Product

Resources

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Human cystic fibrosis airway epithelia have reduced Cl ⁻ conductance but not increased Na ⁺ conductance