Identification of thyroid hormone response elements in the human fatty acid synthase promoter

To investigate the regulation of the human fatty acid synthase gene by the thyroid hormone triiodothyronine, various constructs of the human fatty acid synthase promoter and the luciferase reporter gene were transfected in combination with plasmids expressing the thyroid hormone and the retinoid X receptors in HepG2 cells. The reporter gene was activated 25-fold by the thyroid hormone in the presence of the thyroid hormone receptor. When both the thyroid hormone and the retinoid X receptors were expressed in HepG2 cells, there was about a 100-fold increase in reporter gene expression. 5'-Deletion analysis disclosed two thyroid hormone response elements, TRE1 (nucleotides -870 to -650) and TRE2 (nucleotides -272 to -40), in the human fatty acid synthase promoter. The presence of thyroid hormone response elements in these two regions of the promoter was confirmed by cloning various fragments of these two regions in the minimal thymidine kinase promoter-luciferase reporter gene plasmid construct and determining reporter gene expression. The results of this cloning procedure and those of electrophoretic mobility shift assays indicated that the sequence GGGTTAcgtcCGGTCA (nucleotides -716 to -731) represents TRE1 and that the sequence GGGTCC (nucleotides -117 to -112) represents TRE2. The sequence of TRE1 is very similar to the consensus sequence of the thyroid hormone response element, whereas the sequence of TRE2 contains only a half-site of the thyroid hormone response element consensus motif because it lacks the direct repeat. The sequences on either side of TRE2 seem to influence its response to the thyroid hormone and retinoid X receptors.     

Identification and characterization of a putative bile acid-responsive element in cholesterol 7 alpha-hydroxylase gene promoter

Nucleotide sequences of a 7997-base pair SacI fragment spanning 3643 base pairs of the upstream promoter region to exon 4 of the rat cholesterol 7 alpha-hydroxylase gene (CYP7) have been determined. DNase I footprinting and electrophoretic mobility shift assay of the proximal promoter from nucleotides -346 to +36 revealed two protected regions which specifically shifted proteins in rat liver nuclear extracts. Footprint A (nucleotides -81 to -35) contained a cluster of overlapping sequence motifs of TGT3, steroid/thyroid hormone response elements (7 alpha TRE), hepatocyte nuclear factors 1 and 4, and CAAT/enhancer-binding protein alpha and has been shown to confer bile acid repression of the CYP7 gene promoter activity. Footprint B (nucleotides -148 to -129) contained a sequence motif HNF4. When footprint A (-101 to -49) or 7 alpha TRE (-73 to -55) sequence was linked upstream to a heterologous SV40 promoter/luciferase plasmid and transiently transfected into HepG2 cells, taurodeoxycholate suppressed the SV40 promoter activity. Electrophoretic mobility shift assays revealed that one or two bands shifted by the 7 alpha TRE or by a direct repeat sequence in 7 alpha TRE were absent when liver nuclear extracts of deoxycholic acid-treated rats were used. Similar gel shift patterns were also observed when human 7 alpha TRE or human liver nuclear extracts were used. The rat direct repeat sequence interacted with two polypeptides (M(r) = 57,000 and 116,000) in both rat and human liver nuclear extracts. These results suggest that hydrophobic bile acids may suppress the CYP7 gene expression by binding to a bile acid receptor which interacts with and prevents the binding of liver nuclear protein(s) to a bile acid-responsive element and that the core of bile acid-responsive element is a direct repeat.     

T3 receptor suppression of Sp1-dependent transcription from the epidermal growth factor receptor promoter via overlapping DNA-binding sites

Expression of the human epidermal growth factor receptor (EGFR) gene is inhibited by ligand-activated thyroid hormone receptor (T3R). Binding sites for Sp1 and for the T3R.retinoid X receptor (RXR) complex overlap in a functional core of the EGFR promoter. Sp1 inhibited binding of the T3R complex to this 36-base pair (bp) EGFR element in vitro but did not affect binding of the T3R complex to a positive thyroid hormone response element (TRE). In Drosophila SL2 cells, which lack Sp1 and T3R, function of the EGFR promoter was strongly dependent on Sp1. Sp1-dependent promoter function was inhibited by ligand-activated T3R but not by mutant T3R defective in DNA or T3 binding. RXR increased the extent of inhibition. Sp1 enhanced activity of the 36-bp element placed 5' to a minimal TATA promoter and this enhancement was also repressed by T3R. Mutations in the 36-bp element were unable to separate Sp1 and T3R functions. However, addition of a second half-site 5' to the existing site in an inverted repeat configuration created a positive TRE. In the absence of ligand, T3R inhibited Sp1 stimulation from this altered element; addition of T3 reversed the inhibition. When a dimeric TRE is separated from Sp1-binding sites strong synergism was observed. The nature and location of the TRE thus strongly influence biological responses. A TRE site in the EGFR promoter that overlaps an Sp1-binding site inhibits Sp1 function but is unable to direct positive function.     

Structural features of thyroid hormone response elements that increase susceptibility to inhibition by an RTH mutant thyroid hormone receptor

The chicken lysozyme silencer F2 (F2) thyroid hormone response element (TRE) contains an unusual everted palindromic arrangement, has a high affinity for thyroid hormone receptor (TR) homodimers, and is especially sensitive to dominant negative inhibition by, the T3 resistance (RTH) mutant TR beta P453H. We used various TREs and TR mutations to determine the mechanisms for this sensitivity. Changing the F2 orientation from an everted palindrome to a direct repeat with a 4-bp gap (DR+4) (F2-DR) decreased the sensitivity to inhibition at high T3 concentrations, while a loss of this sensitivity occurred with a palindromic arrangement of these same half-sites. F2 contains the dinucleotide TG 5' to each consensus half-site conforming to the optimal TR-binding octamer, YRRGGTCA. A T to A change in position 1 of both F2 half-sites markedly reduced T3-induction, yet only slightly reduced TR homodimer or TR-retinoid X receptor (RXR) heterodimer binding. The TR beta ninth heptad mutation, L428R, prevents TR heterodimerization with RXR and eliminates the inhibitory effect of the P453H mutant TR on the F2-DR, but not the F2 element. Structural features of a TRE that favor strong TR binding of both TR homodimers and TR-RXR heterodimers containing the mutant TR, such as the everted palindromic conformation or the optimal TR-binding consensus octamer, enhance the sensitivity of a TRE to inhibition by the mutant TR. Thus, both half-site orientation and sequence contribute to the sensitivity of a given TRE to dominant negative inhibition by a mutant TR.     

Effects of purified bovine whey factors on cellular immune functions in ruminants

Retinoid X receptors (RXRs) form heterodimers with thyroid hormone receptors (TRs). RXRs increase DNA binding affinity of TRs and T3-mediated transactivation on positive T3 response elements (TREs). However, the role of RXRs on negative TREs, and the relation of RXRs to the dominant negative effect of mutant TRs, are not defined. To clarify the function of RXRs on negative TREs, we performed transient cotransfection studies using the rat glycoprotein hormone alpha promoter fused to luciferase gene (alphaLuc), and human TRH promoter fused to luciferase gene (TRH-Luc) as reporters. We found that the JEG-3 cell-alphaLuc system was very sensitive to TR regulation. Using TRbeta1 wild-type (WT) expression vector, 6.2 ng/well (170 ng/10 cm dish), and 0.2 ng/well (11 ng/10 cm dish) caused maximal, and half maximal, inhibition of Luc activities in the presence of 1 nM T3. A T3 dose dependent inhibition study was also performed. From these studies, we determined that the appropriate conditions in which to study alphaLuc transactivation, in a linear portion of the dose response curve, was using 0.8 ng/well TRbeta1 expression vector and 0.1 nM T3. Under these conditions, TRbeta1 mutant R316H (GH), but not G345R (Mf), showed a weak dominant negative effect at a 1:1 ratio in the presence of 0.1 nM T3 although neither mutant had detectable T3 binding affinity. Moreover this dominant negative effect of R316H on the alphaLuc reporter was enhanced in the presence of RXRgamma. Mutant G345R showed a stronger dominant negative effect than did R316H when using a double palindromic TRE fused to herpes simplex thymidine kinase-Luc reporter as a positive TRE. These results conform to the clinical features of R316H which is associated with apparent pituitary resistance of thyroid hormone (PRTH). Mutant R316H also showed a weak dominant negative effect with TRH-Luc at a 1:1 ratio in the absence or presence of RXRgamma. However RXRgamma did not enhance the dominant negative effect as it did using alphaLuc reporter gene. Electrophoretic gel mobility shift assay (EMSA) showed that RXR alpha augmented the DNA binding affinity of wild type and R316H TRs as heterodimers on the previously reported negative TREs of glycoprotein hormone alpha promoter, suggesting that RXR does not produce its response by removing TRs from these TREs. RXR alpha augmented DNA binding affinity of TRbeta1WT, and R316H showed a weaker heterodimer band than did the wild type in EMSA. Using the TRH-Luc reporter, basal activity was increased by wild type TRbeta1. However a TRbeta1 DNA binding domain mutant, (C127S) which can not bind to DNA, did not increase the basal activity. This indicates that DNA binding of the TR is required for increasing basal activity of TRH promoter. These results indicate that (1) RXR-TR heterodimers play a role in basal transactivation and T3 suppression of negatively regulated genes, and (2) RXRs increase the dominant negative effect of some mutant TRs on specific negative TREs. (3) This effect occurs without removing TRs from the TRE. (4) The differential dominant negative effect of mutant R316H (negative TRE > positive TRE) may explain, at least in part, the presentation of R316H as PRTH. (5) Augmentation of basal activity by wild type TRs on a negative TRE requires DNA binding.     

Classical, novel and atypical isoforms of PKC stimulate ANF- and TRE/AP-1-regulated-promoter activity in ventricular cardiomyocytes

Cultured neonatal rat ventricular myocytes were co-transfected with expression plasmids encoding protein kinase C (PKC) isoforms from each of the PKC subfamilies (classical PKC-alpha, novel PKC-epsilon or atypical PKC-zeta) together with an atrial natriuretic factor (ANF) reporter plasmid. Each PKC had been rendered constitutively active by a single Ala-->Glu mutation or a small deletion in the inhibitory pseudosubstrate site. cPKC-alpha, nPKC-epsilon or aPKC-zeta expression plasmids each stimulated ANF-promoter activity and expression of a reporter gene under the control of a 12-O-tetradecanoylphorbol 13-acetate-response element (TRE). Upregulation of the ANF promoter is characteristic of the hypertrophic response in the heart ventricle and a TRE is present in the ANF promoter. Thus all subfamilies of PKC may have the potential to contribute to hypertrophic response in cardiomyocytes.     

Effects of triiodothyronine and amiodarone on the promoter of the human LDL receptor gene

Treatment of patients with amiodarone, a potent anti arrhythmic drug, increases plasma LDL cholesterol levels, similar to that seen during hypothyroidism. This increase is the result of a decreased expression of the hepatic LDL receptor gene. We investigated the effects of thyroid hormone, amiodarone and desethylamiodarone on the first 687 bp upstream of the first ATG of the human LDL receptor gene by co-transfection with TRbeta1 into HepG2 cells. Promoter activity showed a dose-dependent increase upon addition of thyroid hormone up to a maximum of 600% at 10(-6) M T3. Using 5'-deletions it was found that a functional TRE(s) is present between -687 bp and -160 bp upstream of the ATG of the LDL receptor gene. Amiodarone and desethylamiodarone at 10(-6) M reduced basal LDL receptor promoter activity further then with the TRbeta1 alone (to 30% vs. 50% respectively, p<0.01) but interestingly in combination with T3 these compunds show a synergistic effect on promoter activity (to 225% T3 alone vs. 380% respectively, p<0.01).