Abstract
The CFTR chloride channel is regulated by phosphorylation at PKA and PKC consensus sites within its regulatory region (R-region) through a mechanism, which is still not completely understood. We used a split-CFTR construct expressing the N-term-TMD1-NBD1 (Front Half; FH), TMD2-NBD2-C-Term (Back Half; BH), and the R-region as separate polypeptides (Split-R) in BHK cells, to investigate in situ how different phosphorylation conditions affect the R-region interactions with other parts of the protein. In proximity ligation assays, we studied the formation of complexes between the R-region and each half of the Split-CFTR. We found that at basal conditions, the density of complexes formed between the R-region and both halves of the split channel were equal. PKC stimulation alone had no effect, whereas PKA stimulation induced the formation of more complexes between the R-region and both halves compared to basal conditions. Moreover, PKC + PKA stimulation further enhanced the formation of FH-R complexes by 40% from PKA level. In cells expressing the Split-R with the two inhibitory PKC sites on the R-region inactivated (SR-S641A/T682A), density of FH-R complexes was much higher than in Split-R WT expressing cells after PKC or PKC + PKA stimulation. No differences were observed for BH-R complexes measured at all phosphorylation conditions. Since full-length CFTR channels display large functional responses to PKC + PKA in WT and S641A/T682A mutant, we conclude that FH-R interactions are important for CFTR function. Inactivation of consensus PKC site serine 686 (S686A) significantly reduced the basal BH-R interaction and prevented the PKC enhancing effect on CFTR function and FH-R interaction. The phospho-mimetic mutation (S686D) restored basal BH-R interaction and the PKC enhancing effect on CFTR function with enhanced FH-R interaction. As the channel function is mainly stimulated by PKA phosphorylation of the R-region, and this response is known to be enhanced by PKC phosphorylation, our data support a model in which the regulation of CFTR activation results from increased interactions of the R-region with the N-term-TMD1-NBD1. Also, serine S686 was found to be critical for the PKC enhancing effect which requires a permissive BH-R interaction at basal level and increased FH-R interaction after PKC + PKA phosphorylation.
| Original language | English |
|---|---|
| Pages (from-to) | 33-48 |
| Number of pages | 16 |
| Journal | FASEB BioAdvances |
| Volume | 2 |
| Issue number | 1 |
| DOIs | |
| Publication status | Published - Jan 2020 |
Bibliographical note
Funding Information:This work was supported by NSERC Discovery grant to VC, Nova Scotia Graduate Scholarship and Science Without Borders, Brazil scholarship to DP.
Funding Information:
The authors sincerely thank Frederic Chappe (Dalhousie University) for general technical support and specific training with cell culture and iodide efflux; Stephen Whitefield (CMDI, Dalhousie Faculty of Medicine) for technical support, training and expertise with fluorescence and confocal microscopy; Alexandra Evagelidis (McGill University) for inserting mutations in the R-region constructs; Dr Yassine El Hiani (Dalhousie University) for critical reading of the manuscript and helpful discussions on CFTR structure/function relationship. This work was supported by NSERC Discovery grant to VC, Nova Scotia Graduate Scholarship and Science Without Borders, Brazil scholarship to DP.
Publisher Copyright:
© 2019 The Authors.
ASJC Scopus Subject Areas
- Biochemistry, Genetics and Molecular Biology (miscellaneous)
- Cancer Research
- Molecular Medicine
- Physiology
