Phosphate metabolism in erythrocytes of critically ill patients

1. Orthophosphate (P_i), adenosine 5′-diphosphate (ADP), adenosine 5′-triphosphate (ATP) and 2,3-diphosphoglycerate (2,3-DPG) were measured in the erythrocytes of patients in an intensive care unit.

2. The patients’ plasma concentration of P_i varied from 0.1 to 4.2 mmol/l, and the corresponding concentration in erythrocytes varied from 0.1 to 2.0 mmol/litre of cells.

3. Marked ATP depletion (less than 1 mmol/litre of cells) was only observed when erythrocyte P_i was less than 0.3 mmol/litre of cells and plasma P_i was less than 0.35 mmol/l. No dependence of 2,3-DPG concentration on the cellular concentration of P_i was detected.

4. The phosphorylation potential [ATP]/([ADP] × [P_i]) varied inversely with the erythrocyte concentration of P_i. Hence the calculated free energy of hydrolysis of ATP in the cell increased from −58 kJ/mol in the most hypophosphataemic samples to −51 kJ/mol in the most hyperphosphataemic. Such changes may adversely affect cell function by altering the steady state mass-action ratios of ATPase reactions.

5. When erythrocytes from normal donors were incubated in solutions containing 1 or 5 mmol/l P_i, the cellular concentrations of P_i stabilized at 1.09 and 2.85 mmol/litre of cells respectively. The corresponding rates of lactate production were 2.09 and 3.11 mmol h⁻¹ litre⁻¹ of cells.

6. In spite of this stimulation of glycolysis (and hence of the flux through ATP synthesizing steps of the Embden-Meyerhof pathway), no significant change in ATP concentration was observed. As in the patients' cells, this indicates that, when extracellular P_i concentrations are perturbed, the concentrations, in erythrocytes, of organic phosphates are more closely regulated than the concentration of P_i.