Active Site of Chondroitin AC Lyase Revealed by the Structure of Enzyme−Oligosaccharide Complexes and Mutagenesis,

Abstract

The crystal structures of Flavobacterium heparinium chondroitin AC lyase (chondroitinase AC; EC 4.2.2.5) bound to dermatan sulfate hexasaccharide (DS^hexa), tetrasaccharide (DS^tetra), and hyaluronic acid tetrasaccharide (HA^tetra) have been refined at 2.0, 2.0, and 2.1 Å resolution, respectively. The structure of the Tyr234Phe mutant of AC lyase bound to a chondroitin sulfate tetrasaccharide (CS^tetra) has also been determined to 2.3 Å resolution. For each of these complexes, four (DS^hexa and CS^tetra) or two (DS^tetra and HA^tetra) ordered sugars are visible in electron density maps. The lyase AC DS^hexa and CS^tetra complexes reveal binding at four subsites, −2, −1, +1, and +2, within a narrow and shallow protein channel. We suggest that subsites −2 and −1 together represent the substrate recognition area, +1 is the catalytic subsite and +1 and +2 together represent the product release area. The putative catalytic site is located between the substrate recognition area and the product release area, carrying out catalysis at the +1 subsite. Four residues near the catalytic site, His225, Tyr234, Arg288, and Glu371 together form a catalytic tetrad. The mutations His225Ala, Tyr234Phe, Arg288Ala, and Arg292Ala, revealed residual activity for only the Arg292Ala mutant. Structural data indicate that Arg292 is primarily involved in recognition of the N-acetyl and sulfate moieties of galactosamine, but does not participate directly in catalysis. Candidates for the general base, removing the proton attached to C-5 of the glucuronic acid at the +1 subsite, are Tyr234, which could be transiently deprotonated during catalysis, or His225. Tyrosine 234 is a candidate to protonate the leaving group. Arginine 288 likely contributes to charge neutralization and stabilization of the enolate anion intermediate during catalysis.