Abstract
Human cystathionine β-synthase (CBS) catalyzes the first irreversible step in the transsulfuration pathway and commits homocysteine to the synthesis of cysteine. Mutations in CBS are the most common cause of severe hereditary hyperhomocysteinemia. A yeast two-hybrid approach to screen for proteins that interact with CBS had previously identified several components of the sumoylation pathway and resulted in the demonstration that CBS is a substrate for sumoylation. In this study, we demonstrate that sumoylation of CBS is enhanced in the presence of human polycomb group protein 2 (hPc2), an interacting partner that was identified in the initial yeast two-hybrid screen. When the substrates for CBS, homocysteine and serine for cystathionine generation and homocysteine and cysteine for H2S generation, are added to the sumoylation mixture, they inhibit the sumoylation reaction, but only in the absence of hPc2. Similarly, the product of the CBS reaction, cystathionine, inhibits sumoylation in the absence of hPc2. Sumoylation in turn decreases CBS activity by ∼28% in the absence of hPc2 and by 70% in its presence. Based on these results, we conclude that hPc2 serves as a SUMO E3 ligase for CBS, increasing the efficiency of sumoylation. We also demonstrate that γ-cystathionase, the second enzyme in the transsulfuration pathway is a substrate for sumoylation under in vitro conditions. We speculate that the role of this modification may be for nuclear localization of the cysteine-generating pathway under conditions where nuclear glutathione demand is high.
Highlights
Cystathionine b-synthase (CBS)1 catalyzes the pyridoxal 59phosphate-dependent condensation of serine and homocysteine to form cystathionine, which represents the first committed step in the transsulfuration pathway for cysteine synthesis [1,2]
We demonstrate that human polycomb group protein 2 (hPc2) functions as an E3 ligase for human cystathionine b-synthase (CBS) and enhances its sumoylation by SUMO-1
To evaluate whether hPc2 serves as an E3 ligase for sumoylation of CBS, the SUMO modification reaction was reconstituted in vitro in the presence or absence of hPc2
Summary
Cystathionine b-synthase (CBS) catalyzes the pyridoxal 59phosphate-dependent condensation of serine and homocysteine to form cystathionine, which represents the first committed step in the transsulfuration pathway for cysteine synthesis [1,2]. Gene disruption of CSE leads to marked hypertension and impaired vasorelaxation, confirming the importance of this enzyme as a source of the gaseous signaling molecule, H2S, which is formed as a side reaction, presumably from cysteine [3]. A subset of pathogenic CBS mutations when mimicked in vitro exhibit no apparent biochemical penalty, and sometimes display higher activity than wild-type enzyme [6,7]. This has led us to suggest the hypothesis that these mutations may disrupt interactions between CBS and other proteins, which are important for its cellular functions. In an effort to identify such interacting partner proteins, a yeast two-hybrid screen was undertaken and furnished a disproportionate number of proteins related to the sumoylation pathway including the SUMO (small ubiquitin-like modifier) conjugation enzyme Ubc (ubiquitin-conjugating enzyme), the SUMO ligases, PIAS1
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