Three-dimensional structure of horse liver alcohol dehydrogenase at 2.4 Å resolution

Abstract The crystal structure analysis of horse liver alcohol dehydrogenase has been extended to 2.4 A resolution. From the corresponding electron density map of the apoenzyme we have determined the positions of the 374 amino acids in the polypeptide chain of each subunit. The coenzyme binding domain of the subunit comprises residues 176 to 318. 45% of these residues are helical and 32% are in the central six-stranded pleated sheet structure. The positions and orientations of the helices with respect to the pleated sheet indicate a possible folding mechanism for this part of the subunit structure. The coenzyme analogue ADP-ribose binds to this domain in a position and orientation very similar to coenzyme binding to lactate dehydrogenase. The adenine part binds in a hydrophobic pocket, the adenosine ribose is hydrogen-bonded to the side chain of Asp223, the pyrophosphate is positioned by interaction with Arg47 and the nicotinamide ribose is 6A away from the catalytic zinc atom. The catalytic domain is mainly built up from three distinct antiparallel pleated-sheet regions. Residues within this domain provide ligands to the catalytic zinc atom; Cys46, His67 and Cys174. An approximate tetrahedral coordination of this zinc is completed by a water molecule or hydroxyl ion depending on the pH. Residues 95 to 113 form a lobe that binds the second zinc atom of the subunit. This zinc is liganded in a distorted tetrahedral arrangement by four sulphur atoms from the cysteine residues 97, 100, 103 and 111. The lobe forms one side of a significant cleft in the enzyme surface suggesting that this region might constitute a second catalytic centre of unknown function. The two domains of the subunit are separated by a crevice that contains a wide and deep hydrophobic pocket. The catalytic zinc atom is at the bottom of this pocket, with the zinc-bound water molecule projecting out into the pocket. This water molecule is hydrogen-bonded to the side chain of Ser48 which in turn is hydrogen-bonded to His51. The pocket which in all probability is the binding site for the substrate and the nicotinamide moiety of the coenzyme, is lined almost exclusively with hydrophobic side chains. Both subunits contribute residues to each of the two substrate binding pockets of the molecule. The only accessible polar groups in the vicinity of the catalytic centre are Ser48 and Thr178 apart from zinc and the zinc-bound water molecule.