A DOPAMINE-RESPONSIVE DOMAIN IN THE N-TERMINAL SEQUENCE OF PIT-1 - TRANSCRIPTIONAL INHIBITION IN ENDOCRINE CELL-TYPES

The POU transcription factor Pit-1 activates the prolactin gene in pit uitary lactotrophs and may integrate responses of the gene to external signals, To study the role of Pit-1 in dopaminergic inhibition of the prolactin gene, we transiently transfected Pit-1 and dopamine D2 rece ptor vectors into a series of heterologous cell lines and examined dop amine regulation of the prolactin gene promoter. Regulation was Pit-1- dependent in all cell lines tested, Moreover, dopamine responsiveness was cell type-specific: stimulatory in fibroblasts (COS-7) and muscle- type cells (P19/M(2)SO-induced) and inhibitory in pancreatic endocrine (RIN, InR1-G9) and neural-like (P19/retinoic acid-induced) cells, Bec ause dopaminergic responses in Pit-1-transfected RIN cells paralleled those in pituitary GH4 cells, the islet cell line was used to test for sequences in Pit-1 that mediate negative hormone signals, Dopamine re sponsiveness of the Pit-1 transactivation domain (residues 8-80) was e xamined using a chimeric LexA construct, LxPit-1, LxSp1, and Lx-glucoc orticoid receptor fusions all activated basal transcription, but only LxPit-1 was regulated by dopamine, Regulatory responses of LxPit-1 and full-length Pit-1 were quantitatively similar, In addition, gain-of-f unction G(alpha) mutants that inhibit Pit-1-dependent promoters in GH4 cells also suppressed selectively Pit-l or LxPit-1-dependent promoter s in RIN cells, This demonstrates that Pit-1 can function as a specifi c target for distinct inhibitory G protein signals. Interestingly, Pit -1 sequences N-terminal to the DNA-binding POU domain appear to be suf ficient in mediating regulation by these pathways.