The use of synthetic linear tetrapyrroles to probe the verdin sites of human biliverdin-IX[alpha] reductase and human biliverdin-IX[beta] reductase

Many vertebrate species express two enzymes that are capable of catalysing the reduction of various isomers of biliverdin. Biliverdin-IXα reductase (BVR-A) is most active with its physiological substrate biliverdin-IXα, but can also reduce the three other biliverdin isomers IXβ, IXδ and IXγ. Biliver...

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Veröffentlicht in:	The FEBS journal 2009-08, Vol.276 (16), p.4405
Hauptverfasser:	Franklin, Edward M, Browne, Seamus, Horan, Anne M, Inomata, Katsuhiko, Hammam, Mostafa A S, Kinoshita, Hideki, Lamparter, Tilman, Golfis, Georgia, Mantle, Timothy J
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Schlagworte:	Biochemistry Cellular biology Enzymes Jaundice Liver Molecular biology
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creator	Franklin, Edward M Browne, Seamus Horan, Anne M Inomata, Katsuhiko Hammam, Mostafa A S Kinoshita, Hideki Lamparter, Tilman Golfis, Georgia Mantle, Timothy J
description	Many vertebrate species express two enzymes that are capable of catalysing the reduction of various isomers of biliverdin. Biliverdin-IXα reductase (BVR-A) is most active with its physiological substrate biliverdin-IXα, but can also reduce the three other biliverdin isomers IXβ, IXδ and IXγ. Biliverdin-IXβ reductase (BVR-B) catalyses the reduction of only the IXβ, IXδ and IXγ isomers of biliverdin. Therefore, the activity of BVR-A can be measured using biliverdin-IXα as a specific substrate. We now show that the dimethyl esters of biliverdin-IXβ and biliverdin-IXδ are substrates for BVR-B, but not for BVR-A. This provides a useful method for specifically assaying the activity of both BVR-A and BVR-B in crude mixtures, using biliverdin-IXα for BVR-A and the dimethyl ester of either biliverdin-IXβ or biliverdin-IXδ for BVR-B. Human BVR-A has been suggested as a pharmacological target for neonatal jaundice. Because of the absence of a crystal structure with biliverdin bound to BVR-A, we have investigated indirect ways of examining tetrapyrrole binding. In the present study, we report that a number of sterically locked conformers of 18-ethylbiliverdin-IXα are substrates for human BVR-A, and discuss the implications for the biliverdin binding site. The oxidation of bilirubin-IXα ditaurate to biliverdin-IXα ditaurate is also described. We show that biliverdin-IXα ditaurate is a substrate for human BVR-A and discuss the possibility of using a competing substrate, which is reduced to a water soluble and excretable rubin, as a prototypic inhibitor of BVR-A. [PUBLICATION ABSTRACT]
doi_str_mv	10.1111/j.1742-4658.2009.07148.x
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Biliverdin-IXα reductase (BVR-A) is most active with its physiological substrate biliverdin-IXα, but can also reduce the three other biliverdin isomers IXβ, IXδ and IXγ. Biliverdin-IXβ reductase (BVR-B) catalyses the reduction of only the IXβ, IXδ and IXγ isomers of biliverdin. Therefore, the activity of BVR-A can be measured using biliverdin-IXα as a specific substrate. We now show that the dimethyl esters of biliverdin-IXβ and biliverdin-IXδ are substrates for BVR-B, but not for BVR-A. This provides a useful method for specifically assaying the activity of both BVR-A and BVR-B in crude mixtures, using biliverdin-IXα for BVR-A and the dimethyl ester of either biliverdin-IXβ or biliverdin-IXδ for BVR-B. Human BVR-A has been suggested as a pharmacological target for neonatal jaundice. Because of the absence of a crystal structure with biliverdin bound to BVR-A, we have investigated indirect ways of examining tetrapyrrole binding. In the present study, we report that a number of sterically locked conformers of 18-ethylbiliverdin-IXα are substrates for human BVR-A, and discuss the implications for the biliverdin binding site. The oxidation of bilirubin-IXα ditaurate to biliverdin-IXα ditaurate is also described. We show that biliverdin-IXα ditaurate is a substrate for human BVR-A and discuss the possibility of using a competing substrate, which is reduced to a water soluble and excretable rubin, as a prototypic inhibitor of BVR-A. 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Biliverdin-IXα reductase (BVR-A) is most active with its physiological substrate biliverdin-IXα, but can also reduce the three other biliverdin isomers IXβ, IXδ and IXγ. Biliverdin-IXβ reductase (BVR-B) catalyses the reduction of only the IXβ, IXδ and IXγ isomers of biliverdin. Therefore, the activity of BVR-A can be measured using biliverdin-IXα as a specific substrate. We now show that the dimethyl esters of biliverdin-IXβ and biliverdin-IXδ are substrates for BVR-B, but not for BVR-A. This provides a useful method for specifically assaying the activity of both BVR-A and BVR-B in crude mixtures, using biliverdin-IXα for BVR-A and the dimethyl ester of either biliverdin-IXβ or biliverdin-IXδ for BVR-B. Human BVR-A has been suggested as a pharmacological target for neonatal jaundice. Because of the absence of a crystal structure with biliverdin bound to BVR-A, we have investigated indirect ways of examining tetrapyrrole binding. In the present study, we report that a number of sterically locked conformers of 18-ethylbiliverdin-IXα are substrates for human BVR-A, and discuss the implications for the biliverdin binding site. The oxidation of bilirubin-IXα ditaurate to biliverdin-IXα ditaurate is also described. We show that biliverdin-IXα ditaurate is a substrate for human BVR-A and discuss the possibility of using a competing substrate, which is reduced to a water soluble and excretable rubin, as a prototypic inhibitor of BVR-A. 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Biliverdin-IXα reductase (BVR-A) is most active with its physiological substrate biliverdin-IXα, but can also reduce the three other biliverdin isomers IXβ, IXδ and IXγ. Biliverdin-IXβ reductase (BVR-B) catalyses the reduction of only the IXβ, IXδ and IXγ isomers of biliverdin. Therefore, the activity of BVR-A can be measured using biliverdin-IXα as a specific substrate. We now show that the dimethyl esters of biliverdin-IXβ and biliverdin-IXδ are substrates for BVR-B, but not for BVR-A. This provides a useful method for specifically assaying the activity of both BVR-A and BVR-B in crude mixtures, using biliverdin-IXα for BVR-A and the dimethyl ester of either biliverdin-IXβ or biliverdin-IXδ for BVR-B. Human BVR-A has been suggested as a pharmacological target for neonatal jaundice. Because of the absence of a crystal structure with biliverdin bound to BVR-A, we have investigated indirect ways of examining tetrapyrrole binding. 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title	The use of synthetic linear tetrapyrroles to probe the verdin sites of human biliverdin-IX[alpha] reductase and human biliverdin-IX[beta] reductase
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