4.7 Article

The Thr45Gly substitution in yeast alcohol dehydrogenase substantially decreases catalysis, alters pH dependencies, and disrupts the proton relay system

Journal

CHEMICO-BIOLOGICAL INTERACTIONS
Volume 349, Issue -, Pages -

Publisher

ELSEVIER IRELAND LTD
DOI: 10.1016/j.cbi.2021.109650

Keywords

Enzyme mechanism; Enzyme kinetics; Mutagenesis; Protein structure; Proton transfer

Funding

  1. USPHS National Institute on Alcohol Abuse and Alcoholism grant [AA00279]
  2. National Science Foundation [MCB 9118657]

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X-ray crystallography has revealed that the threonine residue (Thr-45) in the yeast alcohol dehydrogenase (ADH1) plays an important role in catalysis and its substitution results in a significant decrease in catalytic efficiency. Conformational changes of the enzyme and ligand exchanges on the catalytic zinc are severely impacted by the removal of the hydroxyethyl group of Thr-45.
X-Ray crystallography shows that the hydroxyl group of Thr-45 in the fermentative alcohol dehydrogenase (ADH1) from Saccharomyces cerevisiae is hydrogen-bonded to the hydroxyl group of the alcohol bound to the catalytic zinc and is part of a proton relay system linked to His-48. The contribution of Thr-45 to catalysis was studied with steady state kinetics of the enzyme with the T45G substitution. Affinities for coenzymes decrease by only 2-4-fold, but the turnover numbers (V/E-t) and catalytic efficiencies (V/KmEt) decrease 480-fold and 2900 fold for the oxidation of ethanol and 450-fold and 8400-fold for acetaldehyde reduction, respectively, relative to wild-type enzyme. Binding of NADH appears to require protonation of a group with a pK value of similar to 7.4 in wild type ADH1, but the pK value for T45G ADH1 appears to be less than 5. For wild-type enzyme, the pH dependencies for ethanol oxidation (V-1/E-t and V-1/KbEt) are maximal above pK values of 7.0-7.7 and are attributed to the ionization of the alcohol or water bound to the catalytic zinc facilitated by His-48 in the enzyme-NAD(+) complexes. For T45G ADH1, these pK values are shifted to 6.3. The reduction of acetaldehyde (V-2/E-t and V-2/KpEt) modestly increases as the pH increases for wild-type and T45G enzymes. The removal of the hydroxyethyl group of Thr-45 disrupts the connection of the oxygen of ligands bound to the catalytic zinc with the proton relay system and formation of productive catalytic states. The conformational change of the enzyme and the exchange of ligands on the catalytic zinc can also be affected. Assignments of groups responsible for the pK values are discussed in the context of studies on other forms of horse liver and yeast ADHs. The substitutions with Ala-45 and Cys-45 in yeast ADH1 and the homologous substitutions with Ala-48 in horse and human liver ADHs also significantly decrease catalytic efficiency. Threonine or serine residues at this position in alcohol dehydrogenases are highly conserved and contribute substantially to catalysis.

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