%0 Journal Article %T Kinetic and Spectroscopic Investigation of the Y157F and C93G/Y157F Variants of Cysteine Dioxygenase: Dissecting the Roles of the Second-Sphere Residues C93 and Y157. %A Miller JR %A Schnorrenberg EC %A Aschenbrener C %A Fox BG %A Brunold TC %J Biochemistry %V 63 %N 13 %D 2024 Jul 2 %M 38885352 %F 3.321 %R 10.1021/acs.biochem.4c00177 %X In mammals, l-cysteine (Cys) homeostasis is maintained by the mononuclear nonheme iron enzyme cysteine dioxygenase (CDO), which oxidizes Cys to cysteine sulfinic acid. CDO contains a rare post-translational modification, involving the formation of a thioether cross-link between a Cys residue at position 93 (Mus musculus CDO numbering) and a nearby tyrosine at position 157 (Cys-Tyr cross-link). As-isolated CDO contains both the cross-linked and non-cross-linked isoforms, and formation of the Cys-Tyr cross-link during repeated enzyme turnover increases CDO's catalytic efficiency by ∼10-fold. Interestingly, while the C93G CDO variant lacks the Cys-Tyr cross-link, it is similarly active as cross-linked wild-type (WT) CDO. Alternatively, the Y157F CDO variant, which also lacks the cross-link but maintains the free thiolate at position 93, exhibits a drastically reduced catalytic efficiency. These observations suggest that the untethered thiolate moiety of C93 is detrimental to CDO activity and/or that Y157 is essential for catalysis. To further assess the roles of residues C93 and Y157, we performed a spectroscopic and kinetic characterization of Y157F CDO and the newly designed C93G/Y157F CDO variant. Our results provide evidence that the non-cross-linked C93 thiolate stabilizes a water at the sixth coordination site of Cys-bound Y157F Fe(II)CDO. A water is also present, though more weakly coordinated, in Cys-bound C93G/Y157F Fe(II)CDO. The presence of a water molecule, which must be displaced by cosubstrate O2, likely makes a significant contribution to the ∼15-fold and ∼7-fold reduced catalytic efficiencies of the Y157F and C93G/Y157F CDO variants, respectively, relative to cross-linked WT CDO.