Abstract
It has not been possible to study the pumping and signaling functions of Na/K-ATPase independently in live cells. Both cell-free and cell-based assays indicate that the A420P mutation abolishes the Src regulatory function of Na/K-ATPase. A420P mutant has normal pumping but not signaling function. Identification of Src regulation-null mutants is crucial for addressing physiological role of Na/K-ATPase. The α1 Na/K-ATPase possesses both pumping and signaling functions. However, it has not been possible to study these functions independently in live cells. We have identified a 20-amino acid peptide (Ser-415 to Gln-434) (NaKtide) from the nucleotide binding domain of α1 Na/K-ATPase that binds and inhibits Src in vitro. The N terminus of NaKtide adapts a helical structure. In vitro kinase assays showed that replacement of residues that contain a bulky side chain in the helical structure of NaKtide by alanine abolished the inhibitory effect of the peptide on Src. Similarly, disruption of helical structure by proline replacement, either single or in combination, reduced the inhibitory potency of NaKtide on Src. To identify mutant α1 that retains normal pumping function but is defective in Src regulation, we transfected Na/K-ATPase α1 knockdown PY-17 cells with expression vectors of wild type or mutant α1 carrying Ala to Pro mutations in the region of NaKtide helical structure and generated several stable cell lines. We found that expression of either A416P or A420P or A425P mutant fully restored the α1 content and consequently the pumping capacity of cells. However, in contrast to A416P, either A420P or A425P mutant was incapable of interacting and regulating cellular Src. Consequently, expression of these two mutants caused significant inhibition of ouabain-activated signal transduction and cell growth. Thus we have identified α1 mutant that has normal pumping function but is defective in signal transduction.
Highlights
It has not been possible to study the pumping and signaling functions of Na/K-ATPase independently in live cells
To further verify the importance of the helical structure, we determined the effect of A425P and A420P/A425P mutant peptides on Src
Generation of Stable Cell Lines Expressing Ala to Pro Mutants— To verify the importance of the helical structure in ␣1 Na/KATPase-mediated Src regulation, we constructed the following Ala to Pro mutants based on a rat ␣1 cDNA expressing vector we described in our previous publications [3]: A416P, A420P, A425P, and a double mutant (A420P/A425P)
Summary
It has not been possible to study the pumping and signaling functions of Na/K-ATPase independently in live cells. In vitro kinase assays showed that replacement of residues that contain a bulky side chain in the helical structure of NaKtide by alanine abolished the inhibitory effect of the peptide on Src. disruption of helical structure by proline replacement, either single or in combination, reduced the inhibitory potency of NaKtide on Src. To identify mutant ␣1 that retains normal pumping function but is defective in Src regulation, we transfected Na/K-ATPase ␣1 knockdown PY-17 cells with expression vectors of wild type or mutant ␣1 carrying Ala to Pro mutations in the region of NaKtide helical structure and generated several stable cell lines. We have further engineered a cell-permeable NaKtide (pNaKtide) This peptide is a potent Src inhibitor in the in vitro and acts as a receptor antagonist by blocking the formation of functional Na/K-ATPase1⁄7Src complex when applied to cultured cells [9]. Functional studies of these stable cell lines demonstrate that the A420P mutant ␣1 has normal pumping function but has lost its capacity of Src regulation
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