Lysine 238 Is an Essential Residue for α,β-Elimination Catalyzed by Treponema denticola Cystalysin

Mariarita Bertoldi,Barbara Cellini,Simona D'Aguanno,Carla Borri Voltattorni

doi:10.1074/jbc.m305967200

Mariarita Bertoldi, Barbara Cellini + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m305967200

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Journal: The Journal of biological chemistry	Publication Date: Sep 1, 2003
Citations: 16	License type: cc-by

Affiliation: University of Verona

Abstract

Treponema denticola cystalysin is a pyridoxal 5'-phosphate (PLP) enzyme that catalyzes the alpha,beta-elimination of l-cysteine to pyruvate, ammonia, and H2S. Similar to other PLP enzymes, an active site Lys residue (Lys-238) forms an internal Schiff base with PLP. The mechanistic role of this residue has been studied by an analysis of the mutant enzymes in which Lys-238 has been replaced by Ala (K238A) and Arg (K238R). Both apomutants reconstituted with PLP bind noncovalently approximately 50% of the normal complement of the cofactor and have a lower affinity for the coenzyme than that of wild-type. Kinetic analyses of the reactions of K238A and K238R mutants with glycine compared with that of wild-type demonstrate the decrease of the rate of Schiff base formation by 103- and 7.5 x 104-fold, respectively, and, to a lesser extent, a decrease of the rate of Schiff base hydrolysis. Thus, a role of Lys-238 is to facilitate formation of external aldimine by transimination. Kinetic data reveal that the K238A mutant is inactive in the alpha,beta-elimination of l-cysteine and beta-chloro-l-alanine, whereas K238R retains 0.3% of the wild-type activity. These data, together with those derived from a spectral analysis of the reaction of Lys-238 mutants with unproductive substrate analogues, indicate that Lys-238 is an essential catalytic residue, possibly participating as a general base abstracting the Calpha-proton from the substrate and possibly as a general acid protonating the beta-leaving group.

Highlights

Cystalysin utilizes pyridoxal 5Ј-phosphate (PLP)1 as its coenzyme and is categorized as a member of the ␣ subfamily of pyridoxal 5؅-phosphate (PLP)-dependent enzymes that include aspartate aminotransferase
To define the functional role(s) of the lysine residue that forms an internal aldimine with PLP in the active site of cystalysin, we compared some spectroscopic and catalytic properties of the wild-type enzyme and mutants in which Lys-238 is replaced by alanine or arginine
The other peak does not migrate with the same retention time as any of the controls (PLP, pyridoxamine 5Ј-phosphate (PMP), pyridoxine 5Ј-phosphate (PNP)) but elutes with a retention time similar to those of PLP adducts with amine or amino acids and most likely arises from the adduct of PLP with an uncharacterized compound

Summary

Introduction

Cystalysin utilizes pyridoxal 5Ј-phosphate (PLP)1 as its coenzyme and is categorized as a member of the ␣ subfamily of PLP-dependent enzymes that include aspartate aminotransferase. To define the functional role(s) of the lysine residue that forms an internal aldimine with PLP in the active site of cystalysin, we compared some spectroscopic and catalytic properties of the wild-type enzyme and mutants in which Lys-238 is replaced by alanine or arginine.

Results

Conclusion