Cell density dependent regulation of phenylalanine hydroxylase activity in hepatoma cells : Evidence for both an active and inactive enzyme form

The cell density dependent regulation of phenylalanine hydroxylase activity in Reuber hepatoma (H4) cells growing in monolayer culture has been examined in detail. We found that 48 h or more after subculture phenylalanine hydroxylase activity in the cells is an exponential function of cell density (cells/cm²). No discontinuity in the relationship is seen with the formation of a confluent monolayer.A rapid loss or a rapid gain in enzyme activity in the cells is observed after diluting or concentrating the cell cultures. The two processes appear qualitatively different. The loss in activity is a first order process which starts at the time of subculture with the rate of loss dependent on the density of subculture. The gain in activity begins 6–8 h after subculture to a higher density; it can be blocked by cycloheximide and has a maximum rate of increase that is about 10% of the maximum rate of loss of activity.Using immunochemical procedures, we found the same amount of phenylalanine hydroxylase associated antigen in Reuber cells from low density as from high density cultures, over a range of phenylalanine hydroxylase specific activities from 0.2 to 4.2. After concentrating cells to a higher density, no increase in enzyme antigen was observed, despite a several-fold increase in enzyme activity and a requirement for protein synthesis during the process. These observations imply the presence of an active and inactive phenylalanine hydroxylase with the relative amounts of each determined by the cell density. The effects of db-cAMP are discussed. Evidence is presented here that the hydrocortisone stimulation of phenylalanine hydroxylase activity works through a different mechanism than the cell density dependent process.