N.m.r. studies of red cells.

Recent n.m.r. studies of intact red cells are described. With 1H n.m.r. the normal high resolution spectra of red cells, even at high fields, are relatively uninformative because the very large number of resonances from the cells merge into a broad envelope. If a simple 90-tau-180 degree spin echo pulse sequence is used, however, many resonances can all be resolved. These include signals from haemoglobin histidines, glutathione, lactate and pyruvate. 13C and 31P signals have also been seen with a spectrometer converted to observe these nuclei essentially simultaneously. N.m.r. is well suited to monitor the time course of events after a perturbation of the cell system. Lactate increase, glutathione recovery after oxidation and alkylation of glutathione by iodoacetate can all be observed directly in red cell suspensions by means of 1H spin echo n.m.r. This method has also been used to measure isotope exchange (1H-2H) of lactate and of pyruvate at both the C-3 and the C-2 positions, and some of these exchange rates can be interpreted in terms of the activity of specific enzymes in the cells. 1H spin echo n.m.r. has also been used to obtain information about the transport rates of small molecules into cells. By means of the 13C/31P spectrometer and [13C-1] glucose, the 13C enrichment of 2,3-diphosphoglycerate (2,3-DPG) can be monitored at the same time as the levels of 2,3-DPG, ATP and inorganic phosphate are observed by 31P n.m.r.