Composite active site of chondroitin lyase ABC accepting both epimers of uronic acid

Shaya, D; Hahn, Bum-Soo; Bjerkan, Tonje Marita; Kim, Wan Seok; Park, Nam Young; Sim, Joon-Soo; Kim, Yeong-Shik; Cygler, M

doi:10.1093/glycob/cwn002

Title: Composite active site of chondroitin lyase ABC accepting both epimers of uronic acid

Journal Article · Wed Mar 19 00:00:00 EDT 2008 · Glycobiology

DOI:https://doi.org/10.1093/glycob/cwn002· OSTI ID:1006541

Shaya, D; Hahn, Bum-Soo; Bjerkan, Tonje Marita; Kim, Wan Seok; Park, Nam Young; Sim, Joon-Soo; Kim, Yeong-Shik; Cygler, M ^[1]

Catholic Univ of Korea

Enzymes have evolved as catalysts with high degrees of stereospecificity. When both enantiomers are biologically important, enzymes with two different folds usually catalyze reactions with the individual enantiomers. In rare cases a single enzyme can process both enantiomers efficiently, but no molecular basis for such catalysis has been established. The family of bacterial chondroitin lyases ABC comprises such enzymes. They can degrade both chondroitin sulfate (CS) and dermatan sulfate (DS) glycosaminoglycans at the nonreducing end of either glucuronic acid (CS) or its epimer iduronic acid (DS) by a {beta}-elimination mechanism, which commences with the removal of the C-5 proton from the uronic acid. Two other structural folds evolved to perform these reactions in an epimer-specific fashion: ({alpha}/{alpha}){sub 5} for CS (chondroitin lyases AC) and {beta}-helix for DS (chondroitin lyases B); their catalytic mechanisms have been established at the molecular level. The structure of chondroitinase ABC from Proteus vulgaris showed surprising similarity to chondroitinase AC, including the presence of a Tyr-His-Glu-Arg catalytic tetrad, which provided a possible mechanism for CS degradation but not for DS degradation. We determined the structure of a distantly related Bacteroides thetaiotaomicron chondroitinase ABC to identify additional structurally conserved residues potentially involved in catalysis. We found a conserved cluster located {approx}12 {angstrom} from the catalytic tetrad. We demonstrate that a histidine in this cluster is essential for catalysis of DS but not CS. The enzyme utilizes a single substrate-binding site while having two partially overlapping active sites catalyzing the respective reactions. The spatial separation of the two sets of residues suggests a substrate-induced conformational change that brings all catalytically essential residues close together.

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Research Organization:: Argonne National Lab. (ANL), Argonne, IL (United States). Advanced Photon Source (APS)

Sponsoring Organization:: USDOE

OSTI ID:: 1006541

Journal Information:: Glycobiology, Vol. 18, Issue (3) ; 03, 2008

Country of Publication:: United States

Language:: ENGLISH

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59 BASIC BIOLOGICAL SCIENCES
60 APPLIED LIFE SCIENCES
CATALYSIS
CATALYSTS
CHONDROITIN
CONFORMATIONAL CHANGES
GLUCURONIC ACID
HISTIDINE
LYASES
PROTEUS
URONIC ACIDS
BIODEGRADATION

Title: Composite active site of chondroitin lyase ABC accepting both epimers of uronic acid

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