A. Chaston Chapman scite author profile

The value of the adenylate energy charge, [(adenosine triphosphate) + 1/2 (adenosine diphosphate)]/[(adenosine triphosphate) + (adenosine diphosphate) + (adenosine monophosphate)], in Escherichia coli cells during growth is about 0.8. During the stationary phase after cessation of growth, or during starvation in carbon-limited cultures, the energy charge declines slowly to a value of about 0.5, and then falls more rapidly. During the slow decline in energy charge, all the cells are capable of forming colonies, but a rapid fall in viability coincides with the steep drop in energy charge. These results suggest that growth can occur only at energy charge values above about 0.8, that viability is maintained at values between 0.8 and 0.5, and that cells die at values below 0.5. Tabulation of adenylate concentrations previously reported for various organisms and tissues supports the prediction, based on enzyme kinetic observations in vitro, that the energy charge is stabilized near 0.85 in intact metabolizing cells of a wide variety of types.

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Cerebral Metabolic Changes During Prolonged Epileptic Seizures in Rats

Chapman

Meldrum

Siesio

1977

Journal of Neurochemistry

312

148

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Sustained epileptic seizures were induced in paralysed, artificially ventilated and anaesthetized (70% N 2 0 ) rats by means of intravenous bicuculline (1.2 mg kg-I), and cerebral cortical tissue was frozen in situ after periods varying between 10 s and 2 h for analyses of labile phosphates, glycolytic metabolites, citric acid cycle intermediates, and associated amino acids and ammonia, using enzymic fluorometric techniques. Body temperature was kept at 3 7 T , and arterial hypotension, arterial hypoxaemia and hypoglycaemia were prevented.Cortical glycogen concentrations fell progressively (to 23% of control levels) between 1 and 20 min after seizure onset but returned to control concentrations after 120 min of seizure activity. Cortical glucose concentration fell to 30% of control after 1 rnin of seizure activity, remained close to 50% of control for 1 h, and fell again to 30% after 2 h of seizure activity. Cortical lactate concentration was doubled in brains frozen 10 s after bicuculline injection. It rose over the following 20 min, reaching a.steady concentration of about lOpmolg-' wet wt. The changes in lactate and glucose concentration indicated a 34-fold increase in the rate of glycolysis during the first minute of seizure. Phosphocreatine concentration was reduced by nearly 50% after 10 and 30 s of seizure activity, and subsequently stabilized at a concentration 2/3 of normal. ATP concentration was maximally reduced (by 7%) after 30 s and remained close to normal thereafter. Larger, initial reductions occurred in ATP/ADP and ATP/ AMP ratios, as well as in the adenylate energy charge. All these parameters remained significantly reduced for the rest of the 2 h seizure period. However, the changes were moderate since the energy charge was maintained within 2% of control.Changes in citric acid cycle intermediates included initial reductions in a-ketoglutarate and oxaloacetate (calculated) and progressive increases in fumarate, malate and citrate. After long periods of seizures all citric acid cycle intermediates except oxaloacetate were increased in concentration. Ammonia increased during the first min to reach steady state values of 200% of control. Alanine increased progressively during the first 20 min, to stabilize at 200% of control thereafter. GABA increased at 5 rnin and subsequently rose to almost twice the control value (120 min). At 20 rnin and onwards there were progressive decreases in glutamate and aspartate, and a progressive increase in glutamine. The sum of amino acids measured increased significantly and the sum of ammonia equivalents rose substantially.Intracellular pH calculated from the creatine kinase equilibrium decreased by 0.25 units during the first minute. However, since the pH calculated from Pco, and cellular buffer base changes remained close to normal during this period, it is concluded that the components of the creatine kinase reaction were not in equilibrium, and the pH values calculated from this equilibrium were incorrect. Tentative calculations of NADH/NAD+ ratios indicated ...

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Mechanism of anticonvulsant action of valproate

Chapman

Keane

Meldrum³

et al. 1982

Progress in Neurobiology

338

144

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Adenine Nucleotide Concentrations and Turnover Rates. Their Correlation with Biological Activity in Bacteria and Yeast

1977

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Glutamate metabotropic receptors as targets for drug therapy in epilepsy

Moldrich

Chapman

Sarro

et al. 2003

European Journal of Pharmacology

165

108

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