The tricarboxylic acid cycle in Dictyostelium discoideum. A model of the cycle at preculmination and aggregation

Abstract

A preliminary model of tricarboxylic acid-cycle activity in Dictyostelium discoideum is presented. Specific-radioactivity labelling patterns of intra- and extra-mitochondrial pools are simulated by this model and compared with the experimental data. The model arrived at by this method shows the following features. (1) The cycle flux rate is approx. 0.4 mM/min. (2) Both fumarate and malate are compartmentalized at approx. 1:5 between cycle pools and non-cycle pools. These may represent mitochondrial and cytoplasmic pools. Citrate is compartmentalized at 1:10. Succinate appears to exist in three compartments, two of which become labelled by [14C]glutamate and only one by [14C]aspartate (3) Two pools of aspartate with two associated pools of oxaloacetate are necessary for simulation. (4) Exchange between the cycle and non-cycle pools of both citrate and fumarate occurs at very low rates of about 0.003 mM/min, whereas exchange between the malate pools is about 0.004 mM/min. The exchange reaction glutamate in equilibrium 2-oxoglutarate runs at approx. 15 times the cycle flux. (5) A reaction catalysed by "malic" enzyme is included in the model, as this reaction is necessary for complete oxidation of amino acid substrates. (6) Calculation of the ATP yield from the model is consistent with earlier estimates of ATP turnover if the activity of adenylate kinase is considered.