LOCALIZATION OF PROMOTER SEQUENCES REQUIRED FOR THYROTROPIN-RELEASING-HORMONE AND THYROID-HORMONE RESPONSIVENESS OF THE GLYCOPROTEIN HORMONE ALPHA-GENE IN PRIMARY CULTURES OF RAT PITUITARY-CELLS
S. Pennathur et al., LOCALIZATION OF PROMOTER SEQUENCES REQUIRED FOR THYROTROPIN-RELEASING-HORMONE AND THYROID-HORMONE RESPONSIVENESS OF THE GLYCOPROTEIN HORMONE ALPHA-GENE IN PRIMARY CULTURES OF RAT PITUITARY-CELLS, Molecular endocrinology, 7(6), 1993, pp. 797-805
The glycoprotein hormone alpha-gene is regulated by multiple hormones
in different pituitary and placental cell types. In thyrotropes, the a
lpha-gene is stimulated by TRH and repressed by thyroid hormone (T3).
We used transient expression assays in primary cultures of rat pituita
ry cells to examine regulation of the alpha-promoter (alphaLuc) by TRH
and T3. The -846alpha Luc activity was stimulated 3.4-fold by TRH and
repressed 44% by T3. GnRH and cAMP stimulated -846 alphaLuc by 8.3- a
nd 8.6-fold, respectively. T3 blocked TRH stimulation, but it had no e
ffect on stimulation by GnRH or cAMP, suggesting that the T3-mediated
effects are thyrotrope specific. TRH and T3 responsiveness was preserv
ed with deletions to -346 basepairs (bp). TRH responsiveness was lost
after deletion to -280 bp, whereas T3-mediated repression was eliminat
ed by further deletion to -180 bp. A series of DNA fragments between -
420 and -180 was linked to -132 alphaLuc to study TRH and T3 responses
in greater detail. Sequences between -346 to -180 bp conferred TRH re
sponsiveness and T3 inhibition. TRH responsiveness was not seen after
3'-deletions of this fragment to -244 or -280 bp. These results togeth
er with the 5'-deletions provide evidence for two interdependent TRH r
egulatory regions: one between -346 to -280 bp and another between -24
4 to -180 bp. T3-dependent repression only requires sequences between
-244 and -180 bp. Site-directed cluster mutations were created in each
of these two regulatory domains. A mutation in region 1 (-346 to 7328
bp) eliminated TRH stimulation, but retained basal suppression by T3.
A mutation in region 2 (-219 to -197 bp) eliminated TRH and T3 respon
siveness. Both mutants still responded to cAMP. We conclude that TRH r
esponse elements are distinct from previously defined cAMP regulatory
elements and involve two domains in the up-stream region of the alpha-
promoter. The region between -219 and -197 bp forms a complex regulato
ry element that mediates positive regulation by TRH and negative regul
ation by T3. The sequences required for T3 repression in pituitary cel
ls are distinct from the T3 receptor-binding site identified previousl
y in the a-promoter adjacent to the TATA box, potentially reflecting a
locus for thyrotrope-specific factors involved in T3 repression.