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  • Title: Conditions for activity of glutaminase in kidney mitochondria.
    Author: Kovacević Z, McGivan JD, Chappell JB.
    Journal: Biochem J; 1970 Jun; 118(2):265-74. PubMed ID: 5530189.
    Abstract:
    1. Rat kidney mitochondria oxidize glutamate very slowly. Addition of glutamine stimulates this respiration two- to three-fold. Addition of glutamate also stimulates respiration in the presence of glutamine. 2. By measuring mitochondrial swelling in iso-osmotic solutions of glutamine or of ammonium glutamate it was shown that glutamine penetrates the mitochondrial membrane rapidly whereas ammonium glutamate penetrates very slowly. 3. Experiments in which reduction of NAD(P)(+) was measured in preparations of intact and broken mitochondria indicated that glutamate dehydrogenase shows the phenomenon of ;latency'. On the addition of glutamine rapid reduction of nicotinamide nucleotides in intact mitochondria was obtained. 4. During the action of glutaminase there is an accumulation of glutamate inside the mitochondria. 5. When the mitochondria were suspended in a medium containing glutamine, P(i) and rotenone the rate of production of ammonia was stimulated by the addition of a substrate, e.g. succinate. Addition of an uncoupler or antimycin A abolished this stimulation. 6. The effects of succinate and uncoupler were especially pronounced in the presence of glutamate, which is an inhibitor of glutaminase activity by competition with P(i). 7. Determination of the enzyme activity in media at different pH values showed that the optimum pH for glutaminase activity in the preparation of broken mitochondria was 8, whereas for intact mitochondria it was dependent on the energy state. In the presence of succinate as an energy source it was pH 8.5, but in the presence of uncoupler or antimycin A it was 9. This displacement of the pH optimum to a higher value was especially pronounced in the presence of both glutamate and uncoupler. 8. If nigericin was present in potassium chloride medium the pH optimum for enzyme activity in intact non-respiring mitochondria was nearly the same as in the preparation of broken mitochondria; however, its presence in K(+)-free medium displaced the pH optimum for glutaminase activity to a very high value. 9. It is postulated that because of low permeability of the kidney mitochondrial membrane to glutamate the latter accumulates inside the mitochondria, and that this leads to the inhibition of the enzyme by competition with P(i) and also by lowering the pH of the intramitochondrial space. With succinate as substrate for respiration there is an outward translocation of H(+) ions, which together with accumulation of P(i) increases glutaminase activity. Translocation of K(+) ions inward increases the enzyme activity, perhaps by increasing the pH of the internal spaces and causing an accumulation of P(i). 10. The importance of the location of the enzyme in the mitochondria in relation to its biological function and conditions for activity is discussed.
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