Bis-THF motif of acetogenin binds to the third matrix-side loop of ND1 subunit in mitochondrial NADH-ubiquinone oxidoreductase

Natural acetogenins are among the most potent inhibitors of bovine heart mitochondrial NADH-ubiquinone oxidoreductase (complex I). Our photoaffinity labeling study suggested that the hydroxylated bis-THF ring moiety of acetogenins binds at “site A” in the third matrix-side loop connecting the fifth and sixth transmembrane helices in the ND1 subunit [Kakutani et al. (2010) Biochemistry 49, 4794–4803]. Nevertheless, since this proposition was led using a photoreactive Δlac-acetogenin derivative, it needs to be directly verified using a natural acetogenin-type probe. We therefore conducted photoaffinity labeling using a photoreactive natural acetogenin mimic ([125I]diazinylated natural acetogenin, [125I]DANA), which has a small photolabile diazirine group, in place of a hydroxy group, attached to the bis-THF ring moiety. Analysis of the photocross-linked protein in bovine heart submitochondrial particles unambiguously revealed that [125I]DANA binds to the membrane subunit ND1 with high specificity. The photocross-linking was completely blocked in the presence of just a 5-fold excess of bullatacin, indicating that [125I]DANA is an excellent mimic of natural acetogenins and hence binds to the site that accommodates natural products. Careful examination of the fragmentation patterns of the cross-linked ND1 generated by different proteases and their combinations indicated that the cross-linked residue is predominantly located at the supposed site A in the third matrix-side loop.

Graphical abstractFigure optionsDownload full-size imageDownload high-quality image (115 K)Download as PowerPoint slideResearch highlights► We synthesized an acetogenin mimic having photoreactive group in bis-THF ring. ► We performed photoaffinity labeling to identify the binding site of bis-THF motif. ► Bis-THF motif of acetogenins binds to the ND1 subunit of bovine complex I. ► The binding site is located in the third matrix-side loop of ND1 subunit.