Su Y, Zhou A, Al-Lamki RS, Karet FE

V-type or H+-ATPases are a family of ATP-dependent proton pumps that move protons across the plasma membrane at specialized sites such as kidney epithelial cells and osteoclasts as well as acidifying intracellular compartments. The 100-kDa polytopic a-subunit of this group of ATPases is suggested to play an important role in ...

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coupling the two functions of the pump, ATP hydrolysis and proton transport. In man, different a-subunit isoforms are encoded by four genes. ATP6V0A4 encodes a4, which is expressed apically in alpha-intercalated cells in both human and mouse kidney. We sought binding partners for the C terminus of a4 in order to address its potential role in the H+-ATPase complex. Random peptide phage display analysis revealed a consensus motif (WLELRP) with almost complete homology to part of the enzyme phosphofructokinase 1 (PFK-1). Activity of this enzyme is the rate-limiting step in glycolysis. Specificity of a4 binding to this peptide was confirmed by enzyme-linked immunosorbent assay. Protein-protein interaction was further demonstrated by co-immunoprecipitation of a4 with PFK-1 from solubilized human kidney membrane proteins. An in vitro bead-bound PFK-1 pull-down assay showed that this interaction was also true for the ubiquitously expressed a1 subunit. Finally, PFK-1 co-immunolocalized with a4 in alpha-intercalated cells in the collecting ducts of human kidney. These findings indicate a direct link between V-type H+-ATPases and glycolysis via the C-terminal region of the a-subunit of the pump and suggest a novel regulatory mechanism between H+-ATPase function and energy supply. This interaction between the a-subunit and PFK-1 also provides new evidence that the C terminus of this subunit lies cytoplasmically in vivo.

Date: May. 30, 2003

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