Epidermal growth factor and thyrotropin-releasing hormone interact synergistically with calcium to regulate prolactin mRNA levels.

Abstract

The regulation of prolactin RNA sequences by Ca2+, epidermal growth factor (EGF), and thyrotropin-releasing hormone (TRH), singly and in combination, was studied in GH3 cells incubated in a chemically defined medium. Ca2+ increased all large prolactin RNA sequences in the nucleus, thus suggesting a transcriptional site of action. A recently developed cytoplasmic dot hybridization procedure was employed to study regulation of cytoplasmic prolactin mRNA. Ca2+ alone stimulated prolactin mRNA with a lag of between 3 and 9 h and yielded a sizable final increase (14- to 18-fold) of prolactin mRNA. With EGTA present to chelate any residual Ca2+, prolactin mRNA was not detectably increased by TRH, showing that TRH requires Ca2+ to stimulate prolactin mRNA. Under these conditions, prolactin mRNA was only slightly (4-fold) increased by EGF. Either peptide plus an optimal concentration of Ca2+ yielded a 60- to 70-fold increase in prolactin mRNA, showing that both EGF and TRH regulate prolactin mRNA synergistically with Ca2+.