F. Argenton et al., MECHANISMS OF TRANSCRIPTIONAL ACTIVATION OF THE PROMOTER OF THE RAINBOW-TROUT PROLACTIN GENE BY GHF1 PIT1 AND GLUCOCORTICOID/, Biochemical and biophysical research communications, 224(1), 1996, pp. 57-66
The transcription factor GHF1/Pitl, required for the expression of the
prolactin (PRL) and other pituitary-specific genes, is highly conserv
ed from fish to mammals but the mechanisms by which it activates trans
cription are poorly understood. The activity of the promoter (-627/+15
region) of the rainbow trout PRL (tPRL) gene fused to the luciferase
reporter gene was studied using GHF1-expressing rat pituitary GC cells
. Nuclear extracts of GC cells produced five GHF1-specific footprints
in the tPRL promoter, with the position of the two most proximal ones
being highly conserved in trout and mammalian GHF1-regulated genes. De
letional and mutational analyses of the tPRL promoter showed that the
most proximal GHF1 site alone is sufficient to confer sub-maximal GHF1
-dependent transcriptional activity and that a glucocorticoid response
element-like motif mediates dexamethasone stimulation. It is suggeste
d that GHF1 molecules bound to different sites of the tPRL promoter ca
nnot interact simultaneously with the transcriptional apparatus. Moreo
ver, GHF1 and the ligand-bound glucocorticoid receptor tethered to the
ir cognate elements in the promoter could cooperate to enhance transcr
iption by interacting simultaneously with different members of the bas
al transcriptional complex. (C) 1996 Academic Press, Inc.