Abstract
Yeast Ndi1 is a monotopic alternative NADH dehydrogenase. Its crystal structure in complex with the electron acceptor, ubiquinone, has been determined. However, there has been controversy regarding the ubiquinone binding site. To address these points, we identified the first competitive inhibitor of Ndi1, stigmatellin, along with new mixed-type inhibitors, AC0-12 and myxothiazol, and thereby determined the crystal structures of Ndi1 in complexes with the inhibitors. Two separate binding sites of stigmatellin, STG-1 and STG-2, were observed. The electron density at STG-1, located at the vicinity of the FAD cofactor, further demonstrated two binding modes: STG-1a and STG-1b. AC0-12 and myxothiazol are also located at the vicinity of FAD. The comparison of the binding modes among stigmatellin at STG-1, AC0-12, and myxothiazol revealed a unique position for the aliphatic tail of stigmatellin at STG-1a. Mutations of amino acid residues that interact with this aliphatic tail at STG-1a reduced the affinity of Ndi1 for ubiquinone. In conclusion, the position of the aliphatic tail of stigmatellin at STG-1a provides a structural basis for its competitive inhibition of Ndi1. The inherent binding site of ubiquinone is suggested to overlap with STG-1a that is distinct from the binding site for NADH.
Highlights
A monotopic alternative NADH dehydrogenase (Type II NADH dehydrogenase: NDH-2) catalyses the electron transfer from NADH to quinone via FAD or FMN without a proton-pumping activity, and functions as an initial enzyme, either in addition to or as an alternative to proton-pumping NADH dehydrogenase in the respiratory chain of bacteria, archaea, and fungal and plant mitochondria[1,2,3]
The comparison of the structures of Ndi[1] in complexes with stigmatellin, AC0-12 and myxothiazol revealed a unique binding mode of stigmatellin at the STG-1a site, with an aliphatic tail extending in a different direction from the other inhibitors
It is hypothesized that the STG-1a site overlaps with the site of ubiquinone binding during the enzymatic reaction
Summary
A monotopic alternative NADH dehydrogenase (Type II NADH dehydrogenase: NDH-2) catalyses the electron transfer from NADH to quinone via FAD or FMN without a proton-pumping activity, and functions as an initial enzyme, either in addition to or as an alternative to proton-pumping NADH dehydrogenase (complex I) in the respiratory chain of bacteria, archaea, and fungal and plant mitochondria[1,2,3]. We previously determined the crystal structure of Ndi[1] in complex with either NAD+ or ubiquinone and demonstrated that the binding sites of both substrates overlap with each other and that the bound ubiquinone penetrates the plane of the isoalloxazine ring of FAD (Fig. 1A)[28]; these observations support the one-site ping-pong mechanism.
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