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Nuclear factors enhance binding of T3 receptors (TR) to DNA, suggesting that T3 action may require a multicomponent complex bound to thyroid hormone response elements (TREs). We refer to the 65,000 Da nuclear protein in GH3 cells that enhances TR binding to DNA as the TR-auxiliary protein (TRAP) and have characterized its interaction with TR. Using a TRE-DNA affinity matrix we show that TRAP is able to bind to DNA, even in the absence of functional TR. We then used carboxyl-terminal truncations of rat TR alpha-1 and human TR beta in the avidin-biotin complex DNA-binding assay to identify regions that are important for interaction with TRAP. Removal of 34 residues of hTR beta abolishes T3-binding activity, but the ability to bind TRAP is retained. Further truncations and point mutations suggest that TRAP interacts with the ligand-binding domain of TR and with an independent region which overlaps a conserved sequence adjacent to the second Zn2+ finger (amino acids 120-149 in rTR alpha-1). A fragment of rTR alpha-1 (alpha C291) which encompasses these two regions inhibits the ability of TRAP to enhance TR binding to DNA. This is due to binding of alpha C291 to TR, demonstrating the ability of TR to form homodimers. The inability of TRAP to interact with TR dimers and the similarity of the locations of the estradiol receptor dimerization domains with the TRAP interaction regions lead us to conclude that TRAP stabilizes TR binding to DNA by formation of TRAP-TR heterodimers with both proteins bound to the DNA. TR bound to the estrogen response element is unable to respond to TRAP and unable to stimulate transcription, possibly due to the absence of TRAP in the TR-estrogen response element complex. In addition, TRAP may interact with a certain subset of the nuclear receptor superfamily, since human retinoic acid receptor-beta and vitamin D receptor show increased binding to TREs in the presence of nuclear extract, but c-erbA alpha-2, a variant TR, does not respond to TRAP.
Mol Endocrinol 1991 Jan
PMID:3,5,3'-triiodothyronine (T3) receptor-auxiliary protein (TRAP) binds DNA and forms heterodimers with the T3 receptor. 185 Jan 11

In order to further investigate the mechanisms regulating the control of mitochondrial respiration by thyroid hormone, the proton motive force was measured during State IV respiration in liver mitochondria isolated from euthyroid, hyperthyroid, hypothyroid and T3-treated hypothyroid rats. The proton motive force was significantly higher in the hyperthyroid group due to an increased delta pH. The proton motive force of hypothyroid mitochondria was lower than controls due to a decreased membrane potential. The proton motive force for the T3-treated hypothyroid group did not differ from the euthyroid group due to negating changes in the pH gradient and the membrane potential. The intramitochondrial volume was decreased in the hyperthyroid group and unchanged in the other groups. The results indicate that the thyroid status alters the proton motive force in State IV through individual changes in the pH and membrane potential components of the force. The component that changes in hyperthyroid mitochondria is different from that changing in hypothyroid mitochondria.
Mol Cell Biochem 1991 Apr 24
PMID:Thyroid hormone effects on the State IV proton motive force in rat liver mitochondria. 185 48

Steroid and thyroid hormone receptors are expressed in the developing brain and persist throughout adult life. They mediate a variety of effects on the brain, ranging from developmental effects of thyroid hormone and the process of sexual differentiation to the cyclic changes during reproductive cycles in adult female animals. This review summarizes data from the author's laboratory on three topics: (1) actions of extradiol and progesterone on the ventromedial nucleus of the hypothalamus in adult female and male rats, showing both the cyclicity and the consequences of brain sexual differentiation; (2) actions of estradiol on the cholinergic neurons of the basal forebrain of the female and male rat, reflecting the plasticity of the adult cholinergic system as well as sex differences which are developmentally programmed; and (3) diverse actions of estrogens, thyroid hormone and glucocorticoids on the morphology of hippocampal neurons. The review concludes by discussing the interactions between "organizational" (i.e. developmental) effects and the "activational" effects of steroids on the mature nervous system in relation to the environmental control of brain gene expression.
J Steroid Biochem Mol Biol 1991 Aug
PMID:Steroid hormones as mediators of neural plasticity. 188 81

Binding of the thyroid hormone receptor (TR) to thyroid hormone-responsive elements (TREs) is crucial for regulation of gene expression by thyroid hormone. The TR binds to each half-site of a palindromic TRE separately, as a monomer, or simultaneously, as a homodimer. In addition, the TR monomer interacts with a 42-kDa protein that may be responsible for an increase in the apparent size and stability of the TR-TRE complex after incubation with liver nuclear extract. The multiple DNA-binding forms of the TR contact the TRE differently but compete for binding in a dynamic equilibrium which is highly dependent on the relative concentrations of TR and nuclear protein. Thus, protein-protein interactions are likely to determine the context in which the TR binds to target genes and regulates the transcriptional response to thyroid hormone.
Mol Cell Biol 1991 Oct
PMID:Differential DNA binding by monomeric, homodimeric, and potentially heteromeric forms of the thyroid hormone receptor. 192 30

By analogy with steroid receptors, human placental thyroid hormone nuclear receptor (hTR beta 1) could be divided into four functional domains: A/B (Met1-Leu101), C (Cys102-Ala170), D (Thr171-Lys237), and E (Arg238-Asp456). The E domain was thought to bind thyroid hormone. To evaluate whether domain E alone is sufficient to bind T3 or requires the presence of other domains for functional T3-binding activity, a series of deletion mutants was constructed. The mutants were expressed in Escherichia coli, and the expressed proteins were purified. Analysis of the T3-binding affinity and analog specificity of the purified truncated hTR beta 1 indicated that domain E alone did not have T3-binding activity. Extension of the amino-terminal sequence of domain E to include part of domain D yielded a mutant (Lys201-Asp456) with a Ka for T3 of 0.5 +/- 0.2 x 10(9) M-1. Further extension to include the entire domain D (Met169-Asp456) yielded a mutant with T3-binding activity with a Ka of 0.8 +/- 0.1 x 10(9) M-1. Further extension of the amino-terminal sequence to include domain C increased the affinity for T3 by nearly 2-fold (Ka = 1.5 +/- 0.4 x 10(9) M-1). The Ka for the wild-type hTR beta 1 is 1.5 +/- 0.2 x 10(9) M-1. Furthermore, mutant (Met169-Asp456) binds to 3',5',3-triiodo-L-thyropropionic acid, D-T3, L-T4, and L-T3 with 307%, 37%, 7%, and 0.1%, respectively, of the activity of L-T3. This order of analog affinity is similar to that of the wild-type hTR beta 1.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Endocrinol 1991 Apr
PMID:An essential role of domain D in the hormone-binding activity of human beta 1 thyroid hormone nuclear receptor. 192 81

We and others have previously reported that transforming growth factor-alpha (TGF alpha) expression is hormonally responsive and its expression is coregulated with that of its receptor [the epidermal growth factor (EGF) receptor]. The 5'-flanking region of the TGF alpha gene was characterized to determine whether it could confer hormone responsiveness to a reporter gene (luciferase) in human mammary carcinoma cells (MDA468). This segment of the gene is GC rich and contains an element strikingly similar to the core element of the EGF receptor gene that has been shown to mediate both basal and hormone-stimulated expression of the EGF receptor. We now report that a 313-basepair (bp) proximal element of the TGF alpha 5'-flanking region (-373 to -59 relative to the TGF alpha translation start codon) is capable of conferring responses to phorbol ester and EGF. This gene segment does not contain the EGF receptor gene homolog or potential AP-2-binding sites, suggesting that these elements are not necessary for basal and EGF- or phorbol ester-responsive TGF alpha gene expression. This 313-bp proximal element also confers proper transcriptional initiation to the chimeric TGF alpha-luciferase reporter construct, indicating it is the TGF alpha promoter. A 1.1-kilobase segment of the TGF alpha 5'-flanking region also confers retinoic acid, thyroid hormone, and glucocorticoid responsiveness despite the absence of recognizable steroid hormone receptor-binding sites. These hormones stimulate reporter expression 1.5- to 2-fold in a dose-dependent manner. Extension of the 5'-flanking region to -3500 results in marked suppression of reporter gene expression. These results indicate that the TGF alpha gene 5'-flanking sequence contains the elements responsible for hormonal responsiveness of this gene and that these elements are distinct from those that regulate the expression of the EGF receptor gene.
Mol Endocrinol 1991 Apr
PMID:Transcriptional regulation of the human transforming growth factor-alpha gene. 192 84

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)
Mol Endocrinol 1991 Apr
PMID: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. 192 86

Thyroid hormones (T3) and their receptors (TR) play a critical role in the function of the pituitary gland, particularly in thyrotropes, where they regulate expression of the alpha- and beta-subunits of TSH. Since the pituitary gland is composed of several cell types, we undertook a characterization of TR subtypes in a murine thyrotropic tumor (TtT-97), an excellent model in which to study thyroid hormone action in thyrotropes. We screened a thyrotrope cDNA library with rat TR alpha 1 and TR beta 1 cDNA probes and isolated cDNAs encoding the mouse TR alpha 1 and TR beta 1 isoforms as well as a partial clone corresponding to the non-T3 binding carboxy-terminal alpha 2 variant. The polymerase chain reaction was used to amplify additional cDNAs for the specific 5' domains of the mouse TR beta 1 and the pituitary-specific TR beta 2 amino-terminal variant. Using hybridization probes that discriminate between the alpha and beta isoforms and their variants, we demonstrated that thyrotropes contain TR alpha 1 and alpha 2 mRNAs as well as transcripts encoding Rev-erbA, which arise by transcription from the opposite strand of the TR alpha gene. In thyrotropes, the ratio of alpha 2 to TR alpha 1 mRNA levels more closely resembled the distribution in mouse brain than that in heart, where the mRNA levels of TR alpha 1 and alpha 2 are comparable. TR beta 1 and TR beta 2 mRNAs were detected in thyrotropes and were of similar size (approximately 6.4 kilobases). Despite the almost complete conservation between the rat and mouse TR beta 1 sequences at the protein level, the mouse and rat TR beta 2-specific N-terminal domains were less conserved, and the mouse protein was shorter by 39 amino acids at the N-terminus. Of the receptor species, only the mRNA encoding the TR beta 2 isoform, which was restricted to thyrotropes, was decreased by T3 treatment, although the mRNA for the alpha 2 variant was also reduced by T3 in thyrotropes and heart tissue. Levels of TR beta 1 mRNA were not changed in liver, but were increased in thyrotropic tumors and also somewhat in brain, an organ that is not responsive to T3 by classical criteria.
Mol Endocrinol 1991 Aug
PMID:Isolation and characterization of mouse complementary DNAs encoding alpha and beta thyroid hormone receptors from thyrotrope cells: the mouse pituitary-specific beta 2 isoform differs at the amino terminus from the corresponding species from rat pituitary tumor cells. 194 3

Thyroid hormone receptors (TRs) are nuclear proteins that regulate gene expression through interactions with specific DNA sequences. It is well known that thyroid hormones have critical functions in the control of normal brain development. In the rat brain, at least three mRNA species are generated by differential processing of the TR alpha transcript. Only one of the isoforms, TR alpha-1, is a transcriptional activator, while the regulatory roles of the carboxy-terminal variants TR alpha-2 and TR alpha-2v remain unclear. In this study we have used polymerase chain reaction amplification of total RNA to compare TR alpha-1, TR alpha-2, and TR alpha-2v mRNA levels in the brainstem, cerebellum, cerebrum, midbrain, and olfactory bulbs of developing neonatal brains in rats. RNA was collected 5, 10, 15, 20, and 25 days after birth from both normal and hypothyroid animals. Coordinate expression of all three isoforms was observed in most tissues during development, with TR alpha-2 generally maintaining the highest level of expression, and TR alpha-1 the lowest. In hypothyroid tissues, TR alpha-1 message was generally increased, while TR alpha-2 was not. To explore the possible roles of the TR alpha isoforms, we have compared their DNA-binding activities. We report that compared to TR alpha-1, the carboxy-terminal variants TR alpha-2 and TR alpha-2v show different binding patterns with a thyroid hormone response element, suggesting that they bind only poorly as monomers. The varying ratios of the TR alpha isoform expression together with their distinct binding patterns and reported repressor functions suggest that TR alpha isoforms have important roles during brain development and function, and may serve to fine-tune the biological responses to thyroid hormone.
Mol Endocrinol 1991 Aug
PMID:Coordinate expression of functionally distinct thyroid hormone receptor alpha isoforms during neonatal brain development. 194 7

Retinoic acid (RA) induces terminal granulocytic differentiation of the HL-60 promyelocytic leukemia cell line as well as certain other human myeloid leukemias. Specific RA receptors that are members of the steroid-thyroid hormone superfamily of nuclear transcription factors have recently been identified. We developed an HL-60 subclone that was relatively resistant to RA-induced differentiation. Specific nuclear RA receptors in this RA-resistant subclone had a decreased affinity for RA and exhibited a lower molecular weight compared with nuclear RA receptors from the RA-sensitive parental HL-60 cells. Retroviral vector-mediated transduction of a single copy of the RA receptor (RAR-alpha) into this RA-resistant HL-60 subclone restored the sensitivity of these cells to RA. These observations indicate that RAR-alpha plays a critical and central role in mediating RA-induced terminal differentiation of HL-60 leukemia cells.
Mol Cell Biol 1990 May
PMID:Retinoic acid-induced granulocytic differentiation of HL-60 myeloid leukemia cells is mediated directly through the retinoic acid receptor (RAR-alpha). 2708 49

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