Abstract
The pancreatic duct expresses cystic fibrosis transmembrane conductance regulator (CFTR) and HCO3- secretory and salvage mechanisms in the luminal membrane. Although CFTR plays a prominent role in HCO3- secretion, the role of CFTR in HCO3- salvage is not known. In the present work, we used molecular, biochemical, and functional approaches to study the regulatory interaction between CFTR and the HCO3- salvage mechanism Na+/H+ exchanger isoform 3 (NHE3) in heterologous expression systems and in the native pancreatic duct. We found that CFTR regulates NHE3 activity by both acute and chronic mechanisms. In the pancreatic duct, CFTR increases expression of NHE3 in the luminal membrane. Thus, luminal expression of NHE3 was reduced by 53% in ducts of homozygote DeltaF508 mice. Accordingly, luminal Na+-dependent and HOE694- sensitive recovery from an acid load was reduced by 60% in ducts of DeltaF508 mice. CFTR and NHE3 were co-immunoprecipitated from PS120 cells expressing both proteins and the pancreatic duct of wild type mice but not from PS120 cells lacking CFTR or the pancreas of DeltaF508 mice. The interaction between CFTR and NHE3 required the COOH-terminal PDZ binding motif of CFTR, and mutant CFTR proteins lacking the C terminus were not co-immunoprecipitated with NHE3. Furthermore, when expressed in PS120 cells, wild type CFTR, but not CFTR mutants lacking the C-terminal PDZ binding motif, augmented cAMP-dependent inhibition of NHE3 activity by 31%. These findings reveal that CFTR controls overall HCO3- homeostasis by regulating both pancreatic ductal HCO3- secretory and salvage mechanisms.
Highlights
The nucleotide sequence(s) reported in this paper has been submitted to the GenBankTM/EBI Data Bank with accession number(s) AF307992 and AF307993
CFTR1⁄7EBP501⁄7NHE3 Complexes in PS120 Cells and the Mouse Pancreas—To set the stage for analyzing the interaction between CFTR and Naϩ/Hϩ exchanger isoform 3 (NHE3) in model systems and native cells, we first determined which of the adapter proteins known to interact with CFTR are expressed in these cells [10, 12]
PDZK1 is known to associate with CFTR [24], it is not known whether it associates with NHE3 or ezrin via an ERM binding domain
Summary
We used molecular, biochemical, and functional approaches to study the regulatory interaction between CFTR and the HCO3؊ salvage mechanism Na؉/H؉ exchanger isoform 3 (NHE3) in heterologous expression systems and in the native pancreatic duct. When expressed in PS120 cells, wild type CFTR, but not CFTR mutants lacking the C-terminal PDZ binding motif, augmented cAMP-dependent inhibition of NHE3 activity by 31%. These findings reveal that CFTR controls overall HCO3؊ homeostasis by regulating both pancreatic ductal HCO3؊ secretory and salvage mechanisms. These findings reveal a new mechanism by which CFTR regulates ion transport at the luminal membrane and highlight the multiple functions of CFTR in regulating the overall HCO3Ϫ homeostasis in the pancreatic duct and possibly in other CFTR-expressing epithelia
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