S163 is critical for FXYD5 modulation of wound healing in airway epithelial cells.

The FXYD family, which contains seven members, are tissue specific regulators of the Na,K-ATPase. Increased expression of FXYD5, a cancer-cell-associated membrane glycoprotein, has been associated with increased cell motility and metastatic potential. To better understand how FXYD5 may modulate cell motility, we analyzed S163, a conserved residue in all FXYD family members located in the C-terminus. Ectopic expression of human FXYD5 S163 mutants in HEK 293 cells showed that negative charge at S163 (S163D) decreased membrane localization, assessed by immunofluorescence. Coimmunoprecipitation studies revealed decreased FXYD5/Na,K-ATPase interaction for S163D compared with wild-type or S163A mutants. Interestingly, FXYD5 overexpression induced expression of vimentin, a marker of epithelial-mesenchymal transition, in murine airway epithelial cells. Because Na,K-ATPase expression is decreased in some forms of cancer and is critical for establishing cell polarity and suppressing cell motility, we analyzed S163 mutants in an epithelial cell scratch-wound model as a measure of cell migration. Wild-type FXYD5 overexpression increased reepithelialization (p<0.0001), which was further increased in S163D mutants (p<0.005). However, S163A mutants inhibited epithelial cell migration compared with wild-type FXYD5 overexpression (p<0.0001). We conclude that negative charge at S163 regulates FXYD5/Na,K-ATPase interaction and that this interaction modulates cell migration across a wound in airway epithelial cells.