Phosphodiesterase 4D Forms a cAMP Diffusion Barrier at the Apical Membrane of the Airway Epithelium

We demonstrated previously that Calu-3 airway epithelial cells sense adenosine on their luminal surface through adenosine A2B receptors coupled to adenylyl cyclase. Occupancy of these receptors leads to activation of the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel thr...

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Bibliographic Details
Published in:The Journal of biological chemistry 2005-03, Vol.280 (9), p.7997-8003
Main Authors: Barnes, Anthony P, Livera, Gabriel, Huang, Pingbo, Sun, Chuanwen, O'Neal, Wanda K, Conti, Marco, Stutts, M Jackson, Milgram, Sharon L
Format: Article
Language:English
Subjects:
3',5'-Cyclic-AMP Phosphodiesterases - chemistry
3',5'-Cyclic-AMP Phosphodiesterases - physiology
Blotting, Western
Cell Line
Cell Membrane - metabolism
Culture Media, Serum-Free - pharmacology
Cyclic AMP - chemistry
Cyclic AMP - metabolism
Cyclic AMP-Dependent Protein Kinases - metabolism
Cyclic Nucleotide Phosphodiesterases, Type 3
Cyclic Nucleotide Phosphodiesterases, Type 4
Cystic Fibrosis Transmembrane Conductance Regulator - metabolism
Epithelium - enzymology
Humans
Immunohistochemistry
Immunoprecipitation
Models, Biological
Polymerase Chain Reaction
Protein Isoforms
Protein Structure, Tertiary
Reverse Transcriptase Polymerase Chain Reaction
Rolipram - pharmacology
Signal Transduction
Time Factors
Trachea - enzymology
Trachea - metabolism
Trachea - pathology
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Summary:We demonstrated previously that Calu-3 airway epithelial cells sense adenosine on their luminal surface through adenosine A2B receptors coupled to adenylyl cyclase. Occupancy of these receptors leads to activation of the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel through protein kinase A (PKA) anchored at the apical membrane. Because luminal A2B receptor activation does not raise total cellular cAMP levels, we hypothesized that activation of phosphodiesterases (PDEs) confines cAMP generated by apical A2B receptors to a microdomain that includes the CFTR channel. Using reverse transcription-PCR, Western blotting, and activity measurements, PDE4D was identified as the major PDE species in airway epithelia. Consistent with these results, inhibitors of PDE4, but not PDE3, selectively abolished the lateral confinement of cAMP signaling in apical membrane patches during cell-attached recordings. Furthermore, stimulation of the CFTR in excised apical patches by rolipram and RS25344 indicated that PDE4 is localized in close proximity to the CFTR channel. Indeed, immunohistochemistry of human airway sections revealed that PDE4D is localized in the apical domain of the cell. PDE4 was activated after luminal adenosine exposure in a PKA-dependent manner. Because PDE4 activity is positively regulated by PKA, our results support a model whereby the PDE diffusion barrier is proportional to the degree of receptor stimulation. These findings underscore the concept that subcellular localization of individual PDE isozymes is an important mechanism for confining cAMP signaling to functional domains within cells.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M407521200