Density-dependent changes in hexose transport, glycolytic enzyme levels, and glycolytic rates, in uninfected and murine sarcoma virus-transformed rat kidney cells

Abstract

In normal rat kidney (NRK) cell cultures, increased cell density results in a decrease in the rates of hexose transport, glucose utilization, and lactate production and an increase in the level of hexokinase activity. A murine sarcoma virus (Kirsten)-transformed cell line (KNRK) showed little or no density-dependent variation in sugar uptake, glucose consumption, or lactate production. On the other hand, hexokinase, phosphofructokinase, pyruvate kinase, glucose-6-phosphate dehydrogenase, and 6-phosphogluconate dehydrogenase activities were elevated in dense transformed cultures as compared to sparse or uninfected cultures. In another virus-transformed cell line (ts339/NRK) exhibiting temperature-dependent morphology, growth pattern, and transport of 2-deoxy- d-glucose, the levels of glycolytic enzyme activity were related to cell density but not to the culture temperature. The lack of correlation between glycolytic enzyme activity and lactate production by either uninfected or murine sarcoma virus-transformed cultures supports the suggestion that enhanced growth and/or hexose transport capacity rather than elevated glycolytic enzyme activity are responsible for the increased rate of lactate production by virus-transformed NRK cells.