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Pyruvate dehydrogenase complex activity in the coarsely purified enzyme fractions (supernatant and mitochondrial extract) isolated from Walker-256 carcinosarcoma is shown to be much lower than the complex activity in the rat brain. Acetoin was not found in the incubation medium containing pyruvate dehydrogenase tumour complex. The rate of the reaction of nonoxidative formation of acetaldehyde by pyruvate dehydrogenase complex of the tumour was approximately five times lower than the rate of reaction catalyzed by the complex from the rat brain. It is shown that in the presence of adenine nucleotides AMP, ADP or ATP (0.5 mM) in the medium pyruvate: NAD+ oxidoreductase activity of the tumour complex is inhibited by 40-56% as compared to the control and reaction of nonoxidative decarboxylation of pyruvate is approximately 2 times activated. It is supposed that the accumulation of nonoxidative reaction products may be an essential factor for development and functioning of the tumour.

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It is shown that the relative amount of the holoenzyme in the highly purified pyruvate dehydrogenase complex from the bovine brain is higher when the enzyme activity is assayed in the reaction of nonoxidative formation of acetaldehyde as compared to the pyruvate: NAD+ reductase reaction. The S0.5 values for thiamine pyrophosphate are as following: (TPP) (0.314 +/- 0.22) x 10(-7) M with reaction of nonoxidative formation of acetaldehyde, (0.188 +/- 0.08) x 10(-6) M and (1.65 +/- 1.16) x 10(-6) M in case of the pyruvate: NAD+ reductase reaction. TPP in the concentration of (0.5-6.0) x 10(-7) M completely protects the sites of nonoxidative formation of acetaldehyde from modification by the coenzyme analogs, 4'-oxythiamine pyrophosphate and tetrahydrothiamine pyrophosphate. However, the pyruvate: NAD+ reductase activity of the pyruvate dehydrogenase complex is inhibited in this case by 30-34%. The data obtained suggest that in contrast to the pyruvate: NAD+ reductase reaction the conversion of pyruvate to acetaldehyde occurs by the sites which tightly bound TPP.

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It was shown that in the presence of ATP and Mg2+ the phosphorylation of the partially purified pyruvate dehydrogenase complex and the enzyme in isolated brain mitochondria inhibited the oxidative activity of the pyruvate dehydrogenase complex. The phosphorylation did no affect essentially the nonoxidative decarboxylation of pyruvate to form CO2 and acetaldehyde. In native mitochondria from the bovine brain the nonoxidative activity of the pyruvate dehydrogenase complex reached about 10% as compared to the oxidative activity of enzyme.

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The two-phase character of essential histidine residues modification of pyruvate dehydrogenase component of pyruvate dehydrogenase complex from pigeon breast muscle by diethylpyrocarbonate has been demonstrated. The relative amplitude of the fast phase increases with increasing the modificator concentration. The model of chemical modification of dimeric enzyme where the modification of the residue in one subunit leads to the change of reactivity of corresponding residue in the other subunit is used for the description of inactivation kinetics. The expression for the diminishing of enzyme activity in the course of chemical modification and the methods of kinetic parameters estimation have been proposed. The following values of kinetic parameters for the modification of pyruvate dehydrogenase component by diethylpyrocarbonate were obtained (pH 6.0; 20 degrees C): k1 = 6400 +/- 400 M-1 min-1 (the microscopic rate constant for the modification of histidine residue in the intact dimer), k2 = 890 +/- 200 M-1 min-1 (the rate constant for the modification of histidine residue in the intact subunit in the dimer which contains one modified subunit) and kt = 0.9 +/- 0.2 min-1 (the rate constant for conformational transition of the dimer induced by modification of histidine residue in one of the subunits in the dimeric molecule).

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