Abstract
Glucokinase is distinguished from yeast hexokinase and low Km mammalian hexokinases by its low affinity for glucose and its cooperative behavior, even though glucose binding residues and catalytic residues are highly conserved in all of these forms of hexokinase. The roles of Ser-151 and Asn-166 as determinants of hexose affinity and cooperative behavior of human glucokinase have been evaluated by site-directed mutagenesis, expression and purification of the wild-type and mutant enzymes, and steady-state kinetic analysis. Mutation of Asn-166 to arginine increased apparent affinity for both glucose and ATP by a factor of 3. Mutation of Ser-151 to cysteine, alanine, or glycine lowered the Km for glucose by factors of 2-, 26-, and 40-fold, respectively, decreased Vmax, abolished cooperativity for glucose, and also decreased Km for mannose and fructose. The Ser-151 mutants had hexose Km values similar to those of yeast hexokinase, hexokinase I, and the recombinantly expressed COOH-terminal half of hexokinase I. However, the Ki values for the competitive inhibitors, N-acetylglucosamine and glucose-6-P, were unchanged, suggesting that Ser-151 is not important for inhibitor binding. Mutation of Ser-151 also increased the Km for ATP about 5-fold and abolished the enzyme's low ATPase activity, which indicates it is essential for ATP hydrolysis. The substrate-induced change in intrinsic fluorescence of S151A occurred at a much lower glucose concentration than that for wild-type enzyme. The results implicate a dual role for Ser-151 as a determinant of hexose affinity and catalysis, exclusive of the glucose-induced conformational change, and suggest that the low hexose affinity of glucokinase is dependent on interaction of Ser-151 with other regions of the protein.
Highlights
Glucokinase is distinguished from yeast hexokinase and low Km mammalian hexokinases by its low affinity for glucose and its cooperative behavior, even though glucose binding residues and catalytic residues are highly conserved in all ofthese forms ofhexokinase
A molecular model of human f3-cell glucokinase predicts that the carbonyl group of Ser-151 interacts with the 2-0H of mannose and fructose while Glu-256 interacts with the 2-0H of the glucose, which suggests that Ser-151 may be involved in the enzyme's cooperative behavior [5]
The determinants of sugar specificity and cooperative behavior of human f3-cell glucokinase have been studied by mutating several putative active site residues [6], which are conserved in the NH2- and COOH-terminal halves of mammalian hexokinase (N-HK1 and C-HK, respectively), glucokinase, and yeast hexokinase [7]
Summary
Materials-Q-Sepharose was from Pharmacia Biotech Inc. Glu-6-P dehydrogenase,Lactate dehydrogenase,and pyruvate kinase were from Boehringer Mannheim. Glucosamine, N-acetylglucosamine, mannose, fructose, and all other sugars were from Sigma. The full-length cDNA for human kidney hexokinase I was a kind gift from Dr Graeme Bell (HowardHughes MedicalInstitute, University ofChicago). Antibodyto mouse brain hexokinase I was a kind gift from Dr John Wilson(Dept
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