Abstract
Human carbonyl reductase 1 (hCBR1) is an NADPH-dependent short chain dehydrogenase/reductase with broad substrate specificity and is thought to be responsible for the in vivo reduction of quinones, prostaglandins, and other carbonyl-containing compounds including xenobiotics. In addition, hCBR1 possesses a glutathione binding site that allows for increased affinity toward GSH-conjugated molecules. It has been suggested that the GSH-binding site is near the active site; however, no structures with GSH or GSH conjugates have been reported. We have solved the x-ray crystal structures of hCBR1 and a substrate mimic in complex with GSH and the catalytically inert GSH conjugate hydroxymethylglutathione (HMGSH). The structures reveal the GSH-binding site and provide insight into the affinity determinants for GSH-conjugated substrates. We further demonstrate that the structural isostere of HMGSH, S-nitrosoglutathione, is an ideal hCBR1 substrate (Km = 30 microm, kcat = 450 min(-1)) with kinetic constants comparable with the best known hCBR1 substrates. Furthermore, we demonstrate that hCBR1 dependent GSNO reduction occurs in A549 lung adenocarcinoma cell lysates and suggest that hCBR1 may be involved in regulation of tissue levels of GSNO.
Highlights
Human carbonyl reductase 1,3 an NADPH-dependent enzyme belonging to the short chain dehydrogenase/reductase family, has been shown to be involved in the metabolism of structurally diverse carbonyl-containing substances
We further demonstrate that the structural isostere of HMGSH, S-nitrosoglutathione, is an ideal Human carbonyl reductase 1 (hCBR1) substrate (Km ؍30 M, kcat ؍450 min؊1) with kinetic constants comparable with the best known hCBR1 substrates
HMGSH is a thio-hemiacetal that cannot be reduced by hCBR1 because of the low reduction potential of NADPH, we considered the possibility that other physiological isosteres of HMGSH might be efficient substrates
Summary
Crystallization, Data Collection, and Refinement—Human carbonyl reductase 1 was overexpressed in Escherichia coli and purified as previously described [5].
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