A Microcompartment Of Mitochondrial Nucleoside Diphosphate Kinase: Cardiolipin Interaction And Coupling Of Nucleotide Transfer With Respiration

Abstract

Molecular functions of mitochondrial nucleoside diphosphate kinase (NDPK-D) were studied using different biophysical and biochemical techniques. Subfractionation of rat liver and HEK 293 cell mitochondria revealed that NDPK-D is essentially bound to the inner membrane. The kinase interacted electrostatically with anionic phospholipids, showing highest affinity for cardiolipin as quantified by surface plasmon resonance. NDPK-D was also able to cross-link anionic phospholipid-containing liposomes as seen in light scattering assays, suggesting that the hexameric kinase could promote intermembrane contacts. Mutation of the central arginine (R90) in a surface exposed basic RRK motif unique to NDPK-D strongly reduced these membrane interactions. In a model using HeLa cells naturally almost devoid of NDPK-D, wt protein and R90D mutant were stably expressed, but only wt protein was found attached to membranes. Respiration was significantly stimulated by the NDPK substrate TDP only in mitochondria containing wt NDPK-D, but not in those expressing R90D mutant that is catalytically equally active. This indicates local ADP regeneration in the mitochondrial intermembrane space and a tight functional coupling of NDPK-D with oxidative phosphorylation that depends on the membrane-bound state of the kinase. A model is proposed for a mitochondrial NDPK microcompartment.