Regulation of two c-erbA messenger ribonucleic acids in rat GH3 cells by thyroid hormone

There is recent evidence suggesting that c-erbA is the thyroid hormone nuclear receptor, and that there may be multiple c-erbA genes. We investigated the effect of T3 on two c-erbA mRNAs present in GH3 cells. A partial cDNA was isolated from rat GH3 cells which is nearly identical (99.6% nucleotide identity) to rat c-erbA alpha, except for a unique 3'-region corresponding to the carboxyl terminal region of the predicted protein sequence. This cDNA (c-erbA alpha-2), like rat c-erbA alpha, hybridizes to a 2.6 kilobase (kb) mRNA which is distinct from a 6.2 kb species that hybridizes to c-erbA beta. Since nuclear T3-binding is down-regulated by T3, we hypothesized that one or both c-erbA mRNAs might be regulated by T3. GH3 cells were treated with 10 nM T3 for up to 24 h, a manipulation known to decrease nuclear T3 binding by approximately 2-fold in GH cells. Both the 6.2 kb and 2.6 kb mRNA species decreased to nearly 50% of control values at 24 h. These data indicate that these two c-erbA mRNAs are regulated by T3 and suggest that the T3 effect on T3 binding-activity in GH cells may be mediated, in part, by down-regulation of c-erbA mRNA levels.     

Binding of 3,5,3'-triiodothyronine (T3) and its analogs to the in vitro translational products of c-erbA protooncogenes: differences in the affinity of the alpha- and beta-forms for the acetic acid analog and failure of the human testis and kidney alpha-2 products to bind T3

We have compared the affinities for T3 and the T3 analog binding characteristics of the in vitro translational products of seven c-erbA cDNAs (chicken c-erbA alpha; human placental c-erbA beta; rat c-erbA beta-1; rat c-erbA alpha-1; rat c-erbA alpha-2; human testis c-erbA alpha-2; and human kidney c-erbA alpha-2). Four of these (chicken c-erbA alpha, human placental c-erbA beta, rat c-erbA beta-1, rat c-erbA alpha-1) bound T3 with high affinity as previously described. When compared under identical conditions of synthesis and [125I]T3 binding, there was no significant difference between the affinity of the chicken c-erb A alpha-1 and the human c-erbA beta but in a more limited series the affinity of rat c-erbA beta-1 for T3 was 4.6-fold higher than that of the rat c-erbA alpha-1. In vitro translational products of the beta-probes showed a characteristic 2.2-fold higher triiodothyroacetic acid/T3 ratio than did the products of the alpha-probes, regardless of the species of origin of the probe. As previously established, the rat c-erbA alpha-2 product did not bind T3. However, in contrast to two published reports, the human testis and kidney alpha-2 probe products also failed to bind T3. These findings indicate that highly conserved C-terminal 37-40 residues are important for high affinity T3 binding by proteins encoded by the c-erb A family of genes.     

Progesterone receptor regulation by retinoic acid in the human breast cancer cell line T-47D

Data are presented which document the first known effect of retinoic acid on progesterone receptor (PR) gene expression. Treatment of T-47D human breast cancer cells with retinoic acid for 48 h resulted in a marked concentration-dependent decrease in the level of PR mRNA and immunoreactive protein which was similar to the known effect of progestins on these parameters. Retinoic acid, however, did not bind to PR, nor did it cause the previously demonstrated increase in PR molecular weight observed after progestin exposure. When T-47D cells were treated with retinoic acid for 6 h rather than 48 h, no reduction in the level of PR protein was noted at any retinoic acid concentration whereas the effects of retinoic acid on PR mRNA at 6 and 48 h were the same. Examination of the time course of the effects of retinoic acid revealed a rapid decrease in PR mRNA levels detectable 1 h after and maximal 6 h after treatment of T-47D cells with retinoic acid. These effects of retinoic acid contrasted with previously demonstrated progestin effects on PR mRNA which were not apparent until 3 h after and were not maximal until 12 h after treatment. As expected, the PR protein concentration was unaffected for at least 6 h but was maximally decreased 24-48 h after retinoic acid treatment. In summary, retinoic acid treatment of T-47D cells caused a decrease in the cellular PR concentration by decreasing levels of receptor mRNA and protein, suggesting that retinoic acid is capable of modulating sensitivity to progestins in human breast cancer cells.     

Selective effect of zinc compared to other divalent metals on L-triiodothyronine binding to rat c-erbA alpha and beta proteins

The effects of zinc and other divalent metals on the [125I]T3 binding to rat c-erbA alpha and beta recombinant proteins were assessed. The addition of ZnCl2 caused a reversible and dose-dependent inhibition of [125I]T3 binding to rc-erbA beta proteins with half maximum inhibition occurring at 50-100 microM, but no significant effect on [125I]T3 binding to rc-erbA alpha under the same assay conditions. Scatchard analysis revealed a decrease in [125I]T3 binding capacity to beta protein without marked change in Kd values in presence of zinc. Moreover, significant inhibitions of [125I]T3 binding to both alpha and beta proteins were observed in the presence of 100 microM of either MnCl2, CdCl2 or CuCl2, but not MgCl2. Thus, the selective effect of zinc compared to other divalent metals to inhibit T3 binding to rc-erbA beta, but not alpha, proteins was documented and suggest a possible regulatory role for zinc in modulating the intracellular action of thyroid hormone.     

A homozygous deletion in the c-erbA beta thyroid hormone receptor gene in a patient with generalized thyroid hormone resistance: isolation and characterization of the mutant receptor.

Different point mutations have been identified in the T3-binding domain of the c-erbA beta thyroid hormone receptor gene that are associated with variant phenotypes of generalized thyroid hormone resistance (GTHR). In most cases of GTHR, heterozygotes are affected; a single mutant allele results in the inhibition of the function of normal thyroid hormone receptors. We report here a novel genetic abnormality, a 3-basepair (bp) deletion in the T3-binding domain of the beta-receptor in a kindred, S, with GTHR. One patient, S1, was the product of a consanguineous union of two heterozygotes and was homozygous for this defect. Heterozygotes from kindred S harbored a CAC deletion at nucleotides 1295-1297, which resulted in the deduced loss of amino acid residue threonine at codon 332, and they displayed elevated free T4 levels and inappropriately normal TSH levels characteristic of other kindreds with GTHR. However, patient S1, who had two mutant alleles, had markedly elevated TSH and free T4 levels and displayed profound abnormalities in brain development and linear growth. A fibroblast c-erbA beta cDNA extending from codon 175 to stop codon 457 was cloned from patient S1, sequenced, and used to create a full-length mutant cDNA. The kindred S mutant receptor was synthesized in vitro and did not bind T3. This mutant receptor did bind with similar avidity as the wild-type human beta-receptor to thyroid hormone response elements of the human TSH beta (-12 to 43 bp) and rat GH (-188 to -160 bp) genes. Kindred S showed the effect in man of heterozygous and homozygous expression of a dominant negative form of c-erbA beta.     

Competitive inhibition of T3 binding to alpha 1 and beta 1 thyroid hormone receptors by fatty acids.

This study was undertaken to investigate whether fatty acids inhibit the binding of T3 to the alpha 1 and beta 1 form of the thyroid hormone receptor. Fatty acids inhibited the binding of T3 to both receptor proteins isolated from a bacterial expression system. The effectiveness of inhibition depends on the chain length and degree of saturation of the fatty acids. The inhibition of T3 binding to the alpha 1 and beta 1 receptor by oleic acid is competitive in nature; the Ki value was 5.4 10(-6) M for the c-erbA alpha 1 protein and 3.3 10(-6) M for the c-erb beta 1 protein. The findings indicate a direct interaction of fatty acids with T3 receptor proteins.     

Involvement of retinoic acid nuclear receptors in retinoic acid-induced tissue transglutaminase gene expression in rat tracheal 2C5 cells.

The involvement of retinoic acid nuclear receptors (RARs) in the induction of tissue transglutaminase (TG) by retinoic acid in rat tracheal 2C5 cells was determined. The levels of RAR alpha and RAR beta were altered in 2C5 cells by transfection with RAR expression vectors. Increased expression of RAR alpha increased the induction of tissue TG by retinoic acid. In contrast, decreased RAR alpha expression, using an antisense RAR alpha expression vector, diminished the normal level of tissue TG induction caused by retinoic acid. Transfectants overexpressing RAR beta were also more responsive to retinoic acid for the induction of tissue TG, although the magnitude of TG induction was not as great as resulted from RAR alpha overexpression. These results indicate that the levels of the RAR alpha and RAR beta dictate the magnitude of tissue TG induction by retinoic acid.     

Induction of interleukin-1alpha production in murine Sertoli cells by interleukin-1

In the present study we examined the involvement of interleukin (IL)-1alpha, -1beta, FSH, and lipopolysaccharide (LPS) in the regulation of IL-1alpha and -1beta production by Sertoli cells under in vitro conditions. Sertoli cell cultures from immature mice produced constitutively basal levels of intracellular IL-1alpha. Stimulation of Sertoli cell cultures with LPS (5 microgram/ml) resulted in a maximal production of intracellular IL-1alpha 2 h after the stimulation. Thereafter, these levels decreased but remained significantly higher within 24 h after stimulation than those in control cultures. The effect of LPS on IL-1alpha production was dose dependent. FSH did not show any effect on intracellular IL-1alpha production by Sertoli cells. IL-1alpha could not be detected in supernatants of unstimulated or stimulated Sertoli cell cultures. Sertoli cell cultures stimulated with recombinant IL-1alpha induced optimal intracellular levels of IL-1alpha within 2 h of stimulation. These levels remained high 24 h after stimulation. However, stimulation of Sertoli cell cultures with IL-1beta induced a peak of IL-1alpha production 8 h after stimulation. These levels decreased 24 h after the stimulation but were still found to be significantly higher than those in control cultures. The addition of IL-1 receptor antagonist (IL-1ra) to Sertoli cell cultures did not significantly alter their capacity to produce IL-1alpha. However, the stimulatory effects of recombinant IL-1alpha on IL-1alpha production by Sertoli cell cultures were reversed by the concomitant addition of recombinant IL-1ra. No immunoreactive IL-1beta could be detected in lysates or conditioned media of immature murine Sertoli cells under any of the stimulatory conditions outlined. Our results may suggest the involvement of physiological (IL-1) and pathophysiological factors (LPS) in the regulation of spermatogenesis and spermiogenesis processes and male fertility.     

Effect of retinoic acid on the enhancing effect of acetaldehyde on mouse type I collagen expression

Acetaldehyde alone and retinoic acid alone have been shown to increase and decrease, respectively, collagen production by stellate cells in culture. In this study the effects of retinoic acid on alpha(1)(I) and alpha(2)(I) collagen expression and its influence on the enhancing effects of acetaldehyde were determined. Retinoic acid decreased the activation of the alpha(2)(I) collagen promoter and decreased the message of alpha(2)(I) collagen in cultured stellate cells, but had no effect on either the activation of the alpha(1)(I) collagen promoter or on the alpha(1)(I) collagen message. This depressant effect of retinoic acid was also evident in the transfected alpha(2)(I) collagen promoter mutated at the retinoic acid response element (RARE). The activation of the alpha(2)(I) collagen promoter by acetaldehyde was not decreased significantly by retinoic acid, but was suppressed by the retinoic acid receptor (RAR) selective retinoid SRI-6751-84. Retinoic acid, however, decreased the acetaldehyde-induced enhancement of the alpha(1)(I) and alpha(2)(I) collagen messages. Acetaldehyde also resulted in a decrease in RAR beta message and RARbeta protein. This study shows that retinoic acid depresses alpha(2)(I) collagen gene expression but that this effect is less pronounced when the expression of this collagen is enhanced by acetaldehyde, which also decreases RARbeta message and protein. Furthermore, the action of retinoic acid in inhibiting alpha(2)(I) collagen gene expression occurs at sites other than the RARE site.     

Cholera toxin differentially decreases membrane levels of alpha and beta subunits of G proteins in NG108-15 cells

Treatment of NG108-15 neuroblastoma x glioma cells (24 h) with cholera toxin (0.1-10 micrograms/ml) resulted in a concentration-dependent reduction of the membrane levels of subunits of GTP-binding regulatory proteins (G proteins), as determined by quantitative immunoblot procedures. The extent of reduction differed for different types of subunits: the levels of Go alpha and G beta 1 were reduced by 40-50%, whereas those of G alpha common immunoreactivity and Gi2 alpha were only reduced by 10-20% following treatment with 10 micrograms/ml cholera toxin. This effect of the toxin could not be mimicked by incubation with the resolved B oligomer of cholera toxin, nor by exposure of cells to agents able to raise the intracellular levels of cAMP. Basal adenylate cyclase was stimulated in a biphasic manner by cholera toxin, being stimulated at low concentrations (0.01-10 ng/ml) and then decreased at high (0.1-10 micrograms/ml) concentrations. Thus, the down regulation of G-protein subunits produced by cholera toxin requires its (ADP-ribosyl)transferase activity but does not result from a cAMP-mediated mechanism. The toxin-mediated decrease of Go alpha in the membrane was correlated with a diminution of opioid-receptor-mediated stimulation of high-affinity GTPase activity, suggesting that opioid receptors interact with Go in native membranes of NG108-15 cells. Northern-blot analysis of cytoplasmic RNA prepared from cells treated with cholera toxin showed that the levels of mRNA coding for G beta 1 did not change. Thus, the cholera-toxin-induced decrease of G-protein subunits may not result from an alteration in mRNA levels, but may involve a direct effect of the toxin on the process of insertion and/or clearance of G proteins into and/or from the membrane. These data indicate that cholera toxin, besides catalyzing the ADP-ribosylation of Gs and Gi/Go types of G proteins, can also reduce the steady state levels of Go alpha and G beta 1 subunits in the membrane and thus alter by an additional mechanism the function of inhibitory receptor systems.     

Immunochemical evidence that three protein kinase C isozymes increase in abundance during HL-60 differentiation induced by dimethyl sulfoxide and retinoic acid

Activity of the Ca2+/phospholipid-dependent protein kinase C has been shown to increase during differentiation of the human promyelocytic leukemia cell line HL-60 by dimethyl sulfoxide and retinoic acid (Zylber-Katz, E., and Glazer, R. I. (1985) Cancer Res. 45, 5159-5164). Antipeptide antibodies were prepared that specifically recognize the alpha, beta, and gamma isozymes of protein kinase C in rat brain cytosol and HL-60 cell extracts. The three isozymes do not share a common tissue distribution pattern. The gamma enzyme is abundant in brain but a relatively minor component in HL-60 cells; the opposite is true for the alpha enzyme. All three isozymes increase at least 2-fold in abundance in HL-60 cells exposed to 1.2% dimethyl sulfoxide for 48 h. The increase in abundance of the alpha and beta isoforms reaches 7- and 5-fold, respectively, by 96 h without further increase in the abundance of the gamma isozyme. Similarly, all three isozymes increase at least 1.5-fold in abundance after 48 h and 3-fold after 96 h with 1 microM retinoic acid. No further increase in the abundance of any of the isozymes is seen between 96 and 144 h of incubation with retinoic acid. The increase in protein kinase C activity is not limited to the cytosolic forms of the enzyme; a parallel increase in membrane-associated protein kinase C is also observed during differentiation. Approximately 10% of total protein kinase C activity is membrane-associated in both control and differentiating cells. These studies provide the first immunochemical evidence that all three protein kinase C isozymes increase during HL-60 cell differentiation, and they suggest that the increase in the isozyme levels may be coordinately regulated.     

LPS and proinflammatory cytokines decrease lipin-1 in mouse adipose tissue and 3T3-L1 adipocytes

Infection and inflammation affect adipose triglyceride metabolism, resulting in increased plasma free fatty acid (FFA) and VLDL levels during the acute-phase response. Lipin-1, a multifunctional protein, plays a critical role in adipose differentiation, mitochondrial oxidation, and triglyceride synthesis. Here, we examined whether LPS [a Toll-like receptor (TLR)-4 activator], zymosan (a TLR-2 activator), and proinflammatory cytokines regulate lipin-1 in adipose tissue. LPS administration caused a marked decrease in the levels of lipin-1 mRNA and protein in adipose tissue. The decrease in lipin-1 mRNA levels occurred rapidly and lasted for at least 24 h. In contrast, lipin-2 and -3 mRNA levels did not change, suggesting specific repression of lipin-1. Zymosan similarly decreased lipin-1 mRNA without affecting lipin-2 or lipin-3 mRNA levels. To determine the pathways by which LPS repressed lipin-1, we examined the effect of proinflammatory cytokines on cultured adipocytes. In 3T3-L1 adipocytes, TNF-alpha, IL-1beta, and IFN-gamma, but not LPS or IL-6, caused a decrease in lipin-1 mRNA levels. Furthermore, TNF-alpha and IL-1beta administration also decreased mRNA levels of lipin-1 in adipose tissue in mice. Importantly, the LPS-induced decrease in lipin-1 mRNA levels was significantly but not totally blunted in TNF-alpha/IL-1 receptor-null mice compared with controls, suggesting key roles for TNF-alpha/IL-1beta and other cytokines in mediating LPS-induced repression of lipin-1. Together, our results demonstrate that expression of lipin-1, one of the essential triglyceride synthetic enzymes, was suppressed by LPS, zymosan, and proinflammatory cytokines in mouse adipose tissue and in cultured 3T3-L1 adipocytes, which could contribute to a decrease in the utilization of FFA to synthesize triglycerides in adipose tissue, thus promoting the release of FFA into the circulation.