The effect of extracellular potassium concentration on protein synthesis in guinea-pig hippocampal slices.

Abstract

Abstract— We have measured the effect of small variations in extracellular potassium concentrations ([K+]) upon the incorporation of radioactively labelled amino acid into the protein of the isolated guinea‐pig hippocampal slice. The slice is super‐perfused with glucose fortified buffer and maintains an ATP concentration of 33–36 nmol/mg protein and incorporates lysine into protein at a rate of 0.82 pmol/(ig protein/h. Within the range of extracellular K+ from 1.3 to 8.1 mil the change in the rate of lysine incorporation into protein is proportional to the logarithm of the extracellular K+ concentration. Incorporation increases by about 100% over this range. Measurements of the specific activity of the presumed intracellular amino acid pool indicate that the effect of changes in extracellular [K+] is to alter the rate of protein synthesis rather than alter the availability of radioactively labelled precursor. Altering extracellular [K+] does not affect tissue levels of ATP or creatine phosphate, indicating that the effect on amino acid incorporation does not result from an effect upon energy metabolism. It is suggested that this effect of extracellular [K.+] may be a means by which changes in cerebral electrical activity lead to changes in the rate of protein synthesis in brain.