Literature DB >> 19386787

Cystic fibrosis transmembrane conductance regulator and caveolin-1 regulate epithelial cell internalization of Pseudomonas aeruginosa.

Milan Bajmoczi1, Mihaela Gadjeva, Seth L Alper, Gerald B Pier, David E Golan.   

Abstract

Patients with cystic fibrosis (CF) exhibit defective innate immunity and are susceptible to chronic lung infection with Pseudomonas aeruginosa. To investigate the molecular bases for the hypersusceptibility of CF patients to P. aeruginosa, we used the IB3-1 cell line with two defective CF transmembrane conductance regulator (CFTR) genes (DeltaF508/W1282X) to generate isogenic stable, clonal lung epithelial cells expressing wild-type (WT)-CFTR with an NH(2)-terminal green fluorescent protein (GFP) tag. GFP-CFTR exhibited posttranslational modification, subcellular localization, and anion transport function typical of WT-CFTR. P. aeruginosa internalization, a component of effective innate immunity, required functional CFTR and caveolin-1, as shown by: 1) direct correlation between GFP-CFTR expression levels and P. aeruginosa internalization; 2) enhanced P. aeruginosa internalization by aminoglycoside-induced read through of the CFTR W1282X allele in IB3-1 cells; 3) decreased P. aeruginosa internalization following siRNA knockdown of GFP-CFTR or caveolin-1; and 4) spatial association of P. aeruginosa with GFP-CFTR and caveolin-1 at the cell surface. P. aeruginosa internalization also required free lateral diffusion of GFP-CFTR, allowing for bacterial coclustering with GFP-CFTR and caveolin-1 at the plasma membrane. Thus efficient initiation of innate immunity to P. aeruginosa requires formation of an epithelial "internalization platform" involving both caveolin-1 and functional, laterally mobile CFTR.

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Year:  2009        PMID: 19386787      PMCID: PMC2724095          DOI: 10.1152/ajpcell.00527.2008

Source DB:  PubMed          Journal:  Am J Physiol Cell Physiol        ISSN: 0363-6143            Impact factor:   4.249


  79 in total

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2.  Establishment of DsRed.T3_S4T as an improved autofluorescent marker for microbial ecology applications.

Authors:  Catherine E Dandie; Estibaliz Larrainzar; G Louise Mark; Fergal O'gara; John P Morrissey
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3.  Membrane lateral diffusion and capture of CFTR within transient confinement zones.

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Journal:  Biophys J       Date:  2006-05-19       Impact factor: 4.033

Review 4.  Biogenesis of caveolae: a structural model for caveolin-induced domain formation.

Authors:  Robert G Parton; Michael Hanzal-Bayer; John F Hancock
Journal:  J Cell Sci       Date:  2006-03-01       Impact factor: 5.285

5.  Na+/H+ exchanger regulatory factor isoform 1 overexpression modulates cystic fibrosis transmembrane conductance regulator (CFTR) expression and activity in human airway 16HBE14o- cells and rescues DeltaF508 CFTR functional expression in cystic fibrosis cells.

Authors:  Lorenzo Guerra; Teresa Fanelli; Maria Favia; Stefania M Riccardi; Giovanni Busco; Rosa Angela Cardone; Salvatore Carrabino; Edward J Weinman; Stephan Joel Reshkin; Massimo Conese; Valeria Casavola
Journal:  J Biol Chem       Date:  2005-10-03       Impact factor: 5.157

Review 6.  Caveolae and caveolins.

Authors:  R G Parton
Journal:  Curr Opin Cell Biol       Date:  1996-08       Impact factor: 8.382

7.  Rhamnolipids are virulence factors that promote early infiltration of primary human airway epithelia by Pseudomonas aeruginosa.

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Journal:  Infect Immun       Date:  2006-06       Impact factor: 3.441

8.  Nonsense-mediated mRNA decay affects nonsense transcript levels and governs response of cystic fibrosis patients to gentamicin.

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Journal:  J Clin Invest       Date:  2007-02-08       Impact factor: 14.808

9.  Pseudomonas aeruginosa inhibits endocytic recycling of CFTR in polarized human airway epithelial cells.

Authors:  Agnieszka Swiatecka-Urban; Sophie Moreau-Marquis; Daniel P Maceachran; John P Connolly; Caitlin R Stanton; John R Su; Roxanna Barnaby; George A O'toole; Bruce A Stanton
Journal:  Am J Physiol Cell Physiol       Date:  2005-10-19       Impact factor: 4.249

10.  Apical recruitment of CFTR in T-84 cells is dependent on cAMP and microtubules but not Ca2+ or microfilaments.

Authors:  A Tousson; C M Fuller; D J Benos
Journal:  J Cell Sci       Date:  1996-06       Impact factor: 5.285
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  32 in total

Review 1.  Hijacking the endocytic machinery by microbial pathogens.

Authors:  Ann En-Ju Lin; Julian Andrew Guttman
Journal:  Protoplasma       Date:  2010-06-25       Impact factor: 3.356

2.  Cholesterol modulates CFTR confinement in the plasma membrane of primary epithelial cells.

Authors:  Asmahan Abu-Arish; Elvis Pandzic; Julie Goepp; Elizabeth Matthes; John W Hanrahan; Paul W Wiseman
Journal:  Biophys J       Date:  2015-07-07       Impact factor: 4.033

3.  The yin and yang of cystic fibrosis transmembrane conductance regulator function: implications for chronic lung disease.

Authors:  Neeraj Vij; Gregory P Downey
Journal:  Am J Respir Crit Care Med       Date:  2013-01-15       Impact factor: 21.405

4.  Animal and human antibodies to distinct Staphylococcus aureus antigens mutually neutralize opsonic killing and protection in mice.

Authors:  David Skurnik; Massimo Merighi; Martha Grout; Mihaela Gadjeva; Tomas Maira-Litran; Maria Ericsson; Donald A Goldmann; Susan S Huang; Rupak Datta; Jean C Lee; Gerald B Pier
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5.  Cystic fibrosis transmembrane conductance regulator regulates epithelial cell response to Aspergillus and resultant pulmonary inflammation.

Authors:  Neelkamal Chaudhary; Kausik Datta; Frederic B Askin; Janet F Staab; Kieren A Marr
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6.  Eicosanoid release is increased by membrane destabilization and CFTR inhibition in Calu-3 cells.

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Journal:  PLoS One       Date:  2009-10-22       Impact factor: 3.240

7.  Proinflammatory phenotype and increased caveolin-1 in alveolar macrophages with silenced CFTR mRNA.

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Journal:  PLoS One       Date:  2010-06-08       Impact factor: 3.240

8.  Mutations that permit residual CFTR function delay acquisition of multiple respiratory pathogens in CF patients.

Authors:  Deanna M Green; Kathryn E McDougal; Scott M Blackman; Patrick R Sosnay; Lindsay B Henderson; Kathleen M Naughton; J Michael Collaco; Garry R Cutting
Journal:  Respir Res       Date:  2010-10-08

9.  Caveolin-1 modifies the immunity to Pseudomonas aeruginosa.

Authors:  Mihaela Gadjeva; Catherine Paradis-Bleau; Gregory P Priebe; Raina Fichorova; Gerald B Pier
Journal:  J Immunol       Date:  2009-11-30       Impact factor: 5.422

10.  Homotrimeric macrophage migration inhibitory factor (MIF) drives inflammatory responses in the corneal epithelium by promoting caveolin-rich platform assembly in response to infection.

Authors:  Thomas Reidy; Alexander Rittenberg; Markryan Dwyer; Samantha D'Ortona; Gerald Pier; Mihaela Gadjeva
Journal:  J Biol Chem       Date:  2013-01-31       Impact factor: 5.157
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