Identification of a Conserved Calmodulin-Binding Motif &;#x220A; the Sequence of F0F1ATPsynthase Inhibitor Protein

The natural inhibitor proteins IF₁ regulate mitochondrial F₀F₁ATPsynthase in a wide range of species. We characterized the interaction of CaM with purified bovine IF₁, two bovine IF₁ synthetic peptides, as well as two homologous proteins from yeast, namely IF₁ and STF₁. Fluorometric analyses showed that bovine and yeast inhibitors bind CaM with a 1:1 stoichiometry in the pH range between 5 and 8 and that CaM-IF₁ interaction is Ca²⁺-dependent. Bovine and yeast IF₁ have intermediate binding affinity for CaM, while the K_d (dissociation constant) of the STF₁-CaM interaction is slightly higher. Binding studies of CaM with bovine IF₁ synthetic peptides allowed us to identify bovine IF₁ sequence 33–42 as the putative CaM-binding region. Sequence alignment revealed that this region contains a hydrophobic motif for CaM binding, highly conserved in both yeast IF₁ and STF₁ sequences. In addition, the same region in bovine IF₁ has an IQ motif for CaM binding, conserved as an IQ-like motif in yeast IF₁ but not in STF₁. Based on the pH and Ca²⁺ dependence of IF₁ interaction with CaM, we suggest that the complex can be formed outside mitochondria, where CaM could regulate IF₁ trafficking or additional IF₁ roles not yet clarified.