Multihormonal regulation of the human, rat, and bovine growth hormone promoters: differential effects of 3',5'-cyclic adenosine monophosphate, thyroid hormone, and glucocorticoids

We have analyzed the effects of a variety of hormones on activity of the rat GH (rGH), human GH, (hGH), and bovine GH (bGH) promoters. After transient transfection of rat pituitary tumor cells, all three promoters are induced by addition of 8-bromo-cAMP. Sequences required for the cAMP responsiveness of the hGH and rGH promoter lie within 183 base pairs of the mRNA start site. Although the rGH promoter is thyroid hormone (T3) responsive in this system, a construct containing 2.7 kilobases of the hGH promoter 5'-flanking sequences is not. Since we also found that the bGH promoter is T3 responsive in these cells, the hGH results are not likely to be due to a species specific factor required for induction in rat pituitary cells. The hGH promoter is weakly induced by dexamethasone whereas the rGH promoter does not respond to glucocorticoids. The hGH and rGH promoters are not responsive to TRH. These results illustrate the potential heterogeneity in hormonal responses of the same gene in different species.     

Functional characterization of the rat growth hormone promoter elements required for induction by thyroid hormone with and without a co-transfected beta type thyroid hormone receptor

We have extensively characterized the sequences of the rat growth hormone (rGH) promoter required for induction by T3 (thyroid hormone, 3,5,3'-L-triiodothyronine) in a transient transfection system. Oligonucleotides containing portions of the rGH promoter sequence with various deletions and point mutations were placed upstream of the first 137 base pairs of the rGH promoter or the heterologous herpes virus thymidine kinase promoter in chloramphenicol acetyltransferase expression vectors. The rGH137 and thymidine kinase promoters show no or minimal response to T3 in the basal state. The constructs were tested in GH4C1 rat pituitary cells and COS cells (functionally deficient in thyroid hormone receptor) with and without a co-transfected plasmid expressing a beta type c-erbA gene coding for a functional T3 receptor. Oligonucleotides containing the T3 receptor binding site confer hormone-dependent induction in a manner that is independent of either orientation or variation in position on the helix relative to the promoter. Point mutations in the sequence -189 to -173 result in loss of T3 induction, and bases between -173 and -167 were also required for a full T3 response. The minimal length to confer T3 induction to the rGH promoter was 23 base pairs (-190 to -167). Point mutations creating a perfect duplication of 7 base pairs within the receptor binding site conferred 12-fold T3 response to the rGH137 promoter, 3-fold greater than the wild type rGH237 construct. T3 inductibility was also transferred to the thymidine kinase promoter by an oligonucleotide containing the sequence -200 to -157, demonstrating that cell type specific elements located 3' to 157 of the rGH promoter are not required for thyroid hormone responsiveness.     

Effects of varying the position of thyroid hormone response elements within the rat growth hormone promoter: implications for positive and negative regulation by 3,5,3'-triiodothyronine

The thyroid hormone response element (T3RE) of the rat GH (rGH) promoter is located at -188 to -165 relative to the mRNA start site (TSS). Similar sites have been identified in other genes regulated by T3. We have investigated some of these T3REs in positions within the rGH promoter to assess the relative influences of DNA-binding site and position on positive and negative regulation by T3. Synthetic oligonucleotides were used with sequences from the rGH T3RE and proposed negative T3REs (nT3RE) from the rat and human alpha-subunit and rat beta TSH genes. The nT3REs were placed in the background of the wild-type rGH promoter in two positions, at -55 and down-stream of the TSS, with up- and down-mutations of the rGH T3RE. Rat GH T3RE elements were placed 700 basepairs up-stream of a basal rGH promoter and some also at the -55 and TSS positions. Constructions were tested in a transient transfection assay in rat pituitary tumor cells. Two copies of the rGHPAL (palindromic T3RE) placed 700 basepairs up-stream of the rGH promoter conferred 10-fold T3 induction. In the -55 position, the rGHPAL increased T3 induction compared to that in controls, whereas a fragment from the rat and human alpha-subunit gene in the same position reduced induction. Negative T3REs from rat beta TSH and human alpha-subunit reduced T3 induction 50% when placed at the TSS position of a rGH promoter containing an up-mutant T3RE. The T3REPAL placed at the same site increased T3 induction.(ABSTRACT TRUNCATED AT 250 WORDS)     

Mutations of the rat growth hormone promoter which increase and decrease response to thyroid hormone define a consensus thyroid hormone response element

We have previously identified sequences required for thyroid hormone (T3) induction of the rat GH (rGH) promoter, which lie in a region from -188 to -164 upstream of the mRNA start site. Within this region, Domains A, -189 to -184 and B, -179 to -174, are imperfect direct repeats, and domain C, -172 to -167, is a divergent inverted copy that matches the A domain at 4/6 positions. A series of synthetic mutant versions of this sequence were inserted upstream of a truncated rGH promoter, or as a replacement for wild-type sequences in a synthetic 237 base pair rGH promoter or upstream of the heterologous thymidine kinase promoter. Mutations changing the B domain to a perfect copy of the A domain significantly increased T3 induction (21.3-fold) relative to the wild type (3.6-fold). A single point mutation making the C domain a better match to the A domain also increased T3 induction to 16.2-fold. Combining this up-mutation with any of three down-mutations in the A, B, or C domains strongly decreased response, showing that all three domains contribute to the amplified T3 response. Binding affinity of the various mutant oligonucleotides was assessed using in vitro translated receptor and affinity paralleled the functional responses for most binding site mutations. Requirements for in vitro binding were, however, less rigorous than those for functional T3 induction. Based on these results, we propose a consensus T3 receptor binding half-site, AGGT(C/A)A, at least two copies of which are required for a T3 response.(ABSTRACT TRUNCATED AT 250 WORDS)     

Thyroid hormone aporeceptor represses T3-inducible promoters and blocks activity of the retinoic acid receptor

In the presence of its ligand, thyroid hormone receptor (T3R) binds specifically to DNA sequences near a number of genes and induces their expression. We show that in the absence of the hormone, a T3R binding site acts in cis to decrease expression from such genes. The endogenous T3 receptors in rat pituitary cell lines are sufficient to mediate this effect, as shown by comparisons of basal levels of expression directed by transiently transfected plasmids containing the rat growth hormone promoter with wild-type or point-mutated T3 response elements (T3RE). The magnitude of the negative effect is increased by increasing the strength of the T3RE or by raising intracellular levels of T3R by appropriate transfections. T3REs exert a similar negative effect on the herpes virus thymidine kinase (TK) promoter; this effect is dependent on expression of functional T3 aporeceptor (apoT3R). Analysis of a set of T3REs of increasing strength inserted upstream of the TK promoter showed a strong correlation between the level of induced expression in the presence of hormone and the level of repressed expression in the absence of hormone. These results show that, unlike other members of the nuclear hormone receptor family, T3R binds to specific DNA sequences in the absence of hormone and exerts a negative effect on expression of linked genes. The apparent affinity of apoT3R and hormone-bound T3R for a T3RE was assessed by using varying amounts of T3R expression vector in a transfection dose response assay.(ABSTRACT TRUNCATED AT 250 WORDS)     

Interaction of a tissue-specific factor with an essential rat growth hormone gene promoter element.

Rat growth hormone (rGH) gene expression is normally restricted to the anterior pituitary. As a model of this tissue specificity, we compared the transient expression of an rGH-chloramphenicol acetyltransferase (CAT) hybrid gene in rGH-producing rat pituitary tumor (GC) cells and in non-rGH-producing rat fibroblast (rat-2) cells. Deletion analysis of the rGH portion of this hybrid gene demonstrated that DNA sequences within 140 base pairs 5' to the rGH gene were sufficient for correct cell type-specific expression. Deletion of an additional 35 base pairs of the rGH 5'-flanking DNA resulted in a loss of expression of the transfected hybrid gene and correlated with the interaction of a putative trans-acting factor with this region of the rGH promoter. This factor was detectable by DNase I footprinting in a crude nuclear extract from GC cells but not from rat-2 cells. Site-directed mutagenesis of the footprint region caused complete loss of expression of a hybrid gene containing 530 base pairs 5' to the rGH gene. Thus, the interaction of this factor, which we term GC2, is likely to be essential for the tissue-specific expression of the rGH gene.