EFFECT OF TEMPERATURE ON NUCLEOTIDE POOLS AND MONOCLONAL-ANTIBODY PRODUCTION IN A MOUSE HYBRIDOMA

The specific monoclonal antibody productivity (q(Mab)) of a murine hybridoma (CC9C10) increased with incubation temperature in the range 33 degrees C to 39 degrees C. q(Mab) was constant at each temperature and was independent of the phase of culture. The q(Mab) increased by 97% at 39 degrees C and decreased by 21% at 33 degrees C compared with controls at 37 degrees C. Specific rates of substrate (glucose and glutamine) utilization and byproduct (lactate and ammonia) formation also increased with temperature but the yield coefficient, Y-Lac/Glc, was constant for 33 degrees to 39 degrees C and Y-Amm/Gln was constant for 37 degrees to 39 degrees C. Y-Amm/Gln at 33 degrees C was lower than the control. Changes in specific nucleotide concentrations and ratios were monitored by analysis of intracellular nucleotide pools. The NTP ratio, (ATP + GTP)/(UTP + CTP), increased and the U-ratio (UTP/UDP-GNac) decreased during the course of each culture, whereas the adenylate energy charge, (ATP + 0.5ADP)/(ATP + ADP + AMP), remained relatively constant at a value >0.8. The relative content of UDP-N-acetyl galactosamine, UDP-N-acetyl glucosamine, and NAD increased with incubation temperature, whereas the relative ATP content, SA(ATP + ADP + AMP)/SU (UTP + UDP-sugars) ratio, purine/pyrimidine, ATP/GTP, and U-ratio decreased at higher incubation temperatures. It is possible that these nucleotide parameters may have a regulatory role in the changes of q(Mab) observed at the higher temperatures. (C) 1994 John Wiley and Sons, Inc.