Hormonal regulation of prolactin storage in a clonal strain of rat pituitary tumor cells

Abstract

GH4C1 cells (GH cells) are a clonal strain of rat pituitary tumor cells which secrete prolactin. GH cells have been used to study hormone secretion, but they store relatively little prolactin compared to normal prolactin-secreting cells. They are not suitable, therefore, for studying some aspects of pituitary function. We have found that the amount of prolactin GH cells store can be regulated. When GH cells were plated at 10(6) cells/well and treated for six days with 180 nM insulin or 1 nM estradiol, there was a 60 percent increase in prolactin storage compared to control cells. Insulin and estradiol in combination acted synergistically to cause a 190 percent increase in prolactin storage. In contrast, they were additive in increasing extracellular prolactin; there was a 40 percent increase in extracellular prolactin after insulin, a 20 percent increase after estradiol, and a 50 percent increase after insulin plus estradiol. The increases in prolactin storage were always greater than the increases in extracellular prolactin. The increases in prolactin storage were dose-dependent and reached maximal levels after four days of treatment with 180 nM insulin plus 1 nM estradiol. Reducing the plating density to 10(3) cells/well increased the response to insulin and estradiol to nineteenfold. Epidermal growth factor (10 nM) acted synergistically with estradiol and insulin in combination to increase prolactin storage 27-fold. The insulin- and estradiol-induced increase in extracellular prolactin was caused by a specific increase in the rate of prolactin synthesis. The fractional increase in prolactin storage above the increase in prolactin production could not be explained by an increase in prolactin synthesis, an increase in intracellular transit time, or a change in the cell-cycle distribution of the population. Hormone storage can, therefore, be regulated independently from other processes which control hormone production. The prolactin stored in response to insulin and estradiol was releasable by potassium depolarization. Following depletion of intracellular prolactin by depolarization, the cells retained their increased capacity for prolactin storage. The ability to increase prolactin storage will make GH cells a more useful system in which to study pituitary function.