Abstract
The recent finding that the inhibition of Ca2+-stimulated respiration by ruthenium red is mainly due to a binuclear ruthenium complex (Ru360) present in the commercial samples of the classical inhibitor ruthenium red (Ying et. al., 1991), showed that this complex is the more potent and specific inhibitor of the mitochondrial calcium uniporter. This work was aimed to provide insights into the mechanism by which Ru360 and other ruthenium-related compounds inhibits calcium uptake. Ruthenium red and a synthesized analog (Rrphen) were compared with Ru360. The inhibition by this binuclear complex was noncompetitive, with a Ki of 9.89 nM. The number of specific binding sites for Ru360 was 6.2 pmol/mg protein. Ruthenium red and Ru360 were mutually exclusive inhibitors. Bound La3+ was not displaced by Ru360. Rrphen was the least effective for inhibiting calcium uptake. The results support the notion of a specific binding site in the uniporter for the polycationic complexes and a negative charged region from the phospholipids in the membrane, closely associated with the uniporter inhibitor-binding site.
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