Positive cooperativity with Hill coefficients of up to 6 in the glutamate concentration dependence of steady-state reaction rates measured with clostridial glutamate dehydrogenase and the mutant A163G at high pH.

Abstract

Glutamate dehydrogenases from many sources display nonclassical kinetic behavior suggestive of allosteric interaction among the six subunits of the hexamer. A three-dimensional structure now potentially offers a framework for explaining the basis of such behavior in clostridial glutamate dehydrogenase, and this paper offers evidence of extreme, all-or-none cooperativity in the binding of glutamate by this enzyme. A site-directed mutant of clostridial glutamate dehydrogenase in which Ala163 in the glutamate binding site is replaced by glycine displays a markedly sigmoid dependence of reaction rate on glutamate concentration (S0.5 = 200 mM), with a Hill coefficient of 3.4 when assayed at pH 10.5 with 1 mM NAD+. Under the same conditions the wild-type enzyme gave no measurable rate with glutamate concentrations in the range normally used for kinetics (0-100 mM) but gave a steep rise in reaction rate from 600 to 1200 mM glutamate. At pH 9.0, where the wild-type enzyme has previously been shown to be "inactive" in a standard assay, a study extending to much higher glutamate concentrations again revealed a sigmoid dependence, with a Hill coefficient of 5.4 and an S0.5 at 150 mM glutamate. With the mutant A163G the apparent cooperativity was less, with a Hill coefficient of 2.3, and the affinity for glutamate was higher, with S0.5 of 7 mM. Both proteins gave normal hyperbolic dependence on glutamate concentration at pH 7 and pH 8. At pH 9 and with saturating glutamate, both enzymes showed a hyperbolic dependence of the rate on NAD+ concentration. The NAD+ concentration, however, affected the observed degree of cooperativity with varied glutamate.(ABSTRACT TRUNCATED AT 250 WORDS)