Regulation of receptor concentration by homologous hormone. Effect of human growth hormone on its receptor in IM-9 lymphocytes.

When cultured human lymphocytes of the IM-9 line were exposed to human growth hormone (hGH) at 37 degrees, washed for 2 hours, and incubated with 125I-hGH, the binding of 125I-hGH was reduced. The magnitude of the reduction in binding was dependent on the concentration of growth hormone present as well as the duration of the exposure. As little as 2 X 10(-11) M (0.5 ng/ml) growth hormone had a discernible effect. Growth hormone at 2 X 10(-10) M (5.0 ng/ml), which is a low resting concentration of hormone in vivo and occupies about 20% of the receptors at steady state at 30 degrees, produced a 50% reduction in binding while 20 mg/ml, which occupies about 50% of the receptors under steady state conditions, produced an 80% loss of receptors. Further increases in growth hormone concentration produced little further effect on receptor loss. Thus, the loss of receptors at a given concentration of growth hormone (up to 20 ng/ml) in the preincubation at 37 degrees was greater than the occupancy produced by that concentration of growth hormone receptors under steady state conditions at 30 degrees. Analysis of the data indicated that the decrease in binding of 125I-hGH was due to a loss of receptors per cell without any change in affinity of receptor for hormone or in cell number. The concentration of insulin receptors on these cells was affected by the insulin concentration in the medium, and the concentration of growth hormone receptors was affected by growth hormone, but neither hormone had any effect on the heterologous receptors. Exposure of the cells to cycloheximide (0.1 mM) produced a progressive but smaller loss of growth hormone receptors, and the effect of cycloheximide was additive to the receptor loss induced by growth hormone, suggesting that cycloheximide inhibited synthesis of receptors while growth hormone accelerated loss of receptors. When growth hormone was removed from the medium, receptor concentrations were restored rapidly; half of the loss was restored by 6 to 8 hours and the full complement of receptors was restored by 24 hours following removal of the hormone. If the growth hormone was removed and replaced with cycloheximide, the return of the receptors was delayed until the cycloheximide was removed. Thus restoration of the receptors appeared to require the synthesis of new proteins. These data indicate that in the IM-9 lymphocytes the concentration of growth hormone receptors is very sensitive to regulation by growth hormone and also add further support to the suggestion that hormones in general actively regulate the concentration of their own receptors.