Superoxide reductases (SORs) are cysteinate-ligated non-hemeiron enzymes 1 that reduce superoxide (O 2 −) to H 2 O 2 in anaerobicmicrobes. 2 The cysteinate of SOR is trans to the O 2 − binding site, and is proposed to play an important role in promoting the catalytic reaction. Herein, we report a rare example of a functional metalloenzyme active site model, that reduces O 2 − via atrans thiolate-ligated Fe(III)-peroxo intermediate. The trans thiolate is shown to lower the redox potential, change the spin-state, and dramatically weaken the Fe-O bond, favoring O 2 − reduction and H 2 O 2 release. Superoxide is a toxic byproduct of dioxygen chemistry that has been linked to a number of disease states. 3 The proposed SOR mechanism involves the oxidative addition of O 2 − to the open site of the square pyramidal Fe II N 4 His S Cys active site 2c to afford a trans S cys-ligated Fe III-peroxo intermediate. 2d,e This intermediate displays an intense S-to-Fe(III) charge transfer band at ~600(~3500) nm, but has yet to be characterized by vibrational spectroscopy. Iron-peroxo species are extremely difficult to characterize since they are thermally unstable, and photolabile. Vibrational data have been reported for mutant SOR (E47A) peroxos generated via the addition of H 2 O 2. 2b,f,g Whether these are identical to the catalytic SOR intermediate remains to be determined. Although a few well-characterized synthetic nitrogenligated iron-peroxos have been reported, 4a,c there is a paucity of thiolate-ligated analogues. 4b Since a thiolate is likely to influence the correlation between peroxide binding mode, vibrational parameters, and spin-state, synthetic thiolate-ligated peroxos are needed to provide benchmark parameters. Prior to the work reported herein, cis thiolate-ligated [Fe III (S Me2 N 4 (tren))(OOH)] + (1), 4b was the only reported example of a synthetic thiolateligated Fe III-peroxo. In situ deprotection and deprotonation of the new macrocyclic ligand cyclam-PrS-Ac•4HCl, afforded [Fe II (cyclam-PrS)](BPh 4) (2) upon the addition of FeCl 2 and NaBPh 4. Single crystals were grown from pentane/THF at −30 °C. As shown in the ORTEP (Figure 1), the Fe 2+ ion of 2 is ligated by three secondary amines, one tertiary amine, and a tethered apical thiolate in a square pyramidal geometry (τ= 0.13) 5 resembling that of SOR. A related tertiary amine cyclam complex [Fe II (Me 3-cyclam-EtS)] + (3) was recently reported 6 that reacts with H 2 O 2 to afford an Fe(IV)=O. 7 Like the SOR active site, 2 is high spin (S= 2; μ eff =5.03 BM (MeCN); 4.91 BM (solid)). The Fe-S bond length in 2 (2.286(1) Å) falls in the usual range for synthetic Fe(II)thiolates, 6,8 but is slightly shorter than that of SOR (Fe-S= 2.4 Å), the cysteinate sulfur of which is H-bonded to the protein backbone. 2a,c Thiolate-ligated 2 reacts rapidly with O 2 −• (18-crown-6-K + salt) in CH 2 Cl 2 at −78 °C to afford a metastable burgundy intermediate, as soon as a proton donor (MeOH; 82 equiv) is added.
