Dissociation of Spectrin-Ankyrin Complex as a Basis for Loss of Na,K-ATPase Polarity Following Ischemia In MDCK Cells

doi:10.1152/ajprenal.00100.2002

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Dissociation of Spectrin-Ankyrin Complex as a Basis for Loss of Na,K-ATPase Polarity Following Ischemia In MDCK Cells

Robert Woroniecki¹, Jean R. Ferdinand¹, Jon S. Morrow², and Prasad Devarajan³^*

¹ Department of Pediatrics Nephrology, Albert Einstein College of Medicine, Bronx, NY, USA
² Department of Pathology, Yale University School of Medicine, New Haven, CT, USA
³ Department of Pediatrics Nephrology, Albert Einstein College of Medicine, Bronx, NY, USA; Department of Nephrology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH, USA

^* To whom correspondence should be addressed. E-mail: prasad.devarajan{at}chmcc.org.

The polarized distribution of Na,K-ATPase at the basolateralmembranes of renal tubule epithelial cells is maintained viaa tethering interaction with the underlying spectrin-ankyrincytoskeleton. In this study, we have explored the mechanismunderlying the loss of Na,K-ATPase polarity following ischemicinjury in MDCK cells, utilizing a novel antibody raised againsta recently-described kidney-specific isoform of ankyrin. Incontrol MDCK cells, ankyrin was co-localized with Na,K-ATPaseat the basolateral membrane. ATP depletion resulted in a duration-dependentmislocation of Na,K-ATPase and ankyrin throughout the cytoplasm. Co-localization studies showed significant overlap betweenthe distribution of ankyrin and Na,K-ATPase at all periods followingATP depletion. By immunoprecipitation with anti-ankyrin antibody,the mislocated Na,K-ATPase remained bound to ankyrin at alltime points following ATP depletion. However, the interactionbetween ankyrin and spectrin was markedly diminished within3 h of ATP depletion, and was completely lost after 6 h. Insolution binding assays using a fusion peptide of GST with theankyrin binding domain of Na,K-ATPase, a complex with ankyrinwas detected at all time points following ATP depletion, butspectrin was lost from the complex in a duration-dependent manner. The loss of spectrin binding was not attributable to spectrindegradation, but was associated with phosphorylation of ankyrin. The results suggest that a dissociation of the membrane-cytoskeletoncomplex at the spectrin-ankyrin interface may contribute tothe loss of Na,K-ATPase polarity following ischemic injury,and reaffirm a critical adapter role for ankyrin in the normalmaintenance of Na,K-ATPase polarity.

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