Unesterified long-chain fatty acids inhibit thyroid hormone binding to the nuclear receptor. Solubilized receptor and the receptor in cultured cells

Unesterified long-chain fatty acids strongly inhibited thyroid hormone (T3) binding to nuclear receptors extracted from rat liver, kidney, spleen, brain, testis and heart. Oleic acid was the most potent inhibitor, attaining 50% inhibition at 2.8 microM. Oleic acid similarly inhibited the partially purified receptor and enhanced dissociation of the preformed T3-receptor complex. The fatty acid acted in a soluble form and in a competitive manner for the T3-binding sites, thereby reducing the affinity of the receptor for T3. The affinity of the receptor for oleic acid (Ki) was 1.0 microM. In HTC rat hepatoma cells in culture, fatty acids added to the medium reached the nucleus and inhibited nuclear T3 binding; oleic acid being the most potent. T3 binding of the cells was reversibly restored in fresh medium free of added fatty acids. Oleic acid did not affect all the T3-binding sites in the HTC cells: one form (80%) was inhibited and the other was not and these two forms were commonly present in all rat tissues examined. Thus, fatty acids inhibited the solubilized nuclear receptor as well as a class of nuclear T3-binding sites in cells in culture.     

Site-Specific Anti-C-ERB A Antibodies Recognizing Native Thyroid Hormone Receptors: Their use to Detect the Expression and Localization of α and β C-ERB A Proteins in Rat Liver

Abstract

The cell-specific expression and tissue distribution of c-erbA proteins α and β is still unknown. To address this problem, we prepared anti-peptide antibodies directed against epitopes of human (h) c-erbA, specific for the α or β form of thyroid hormone receptors. The cDNAs coding for h c-erbA β1, α1 and α2 were transcribed and the mRNAs were translated in vitro in the presence of 35S-methionine, and then their reactivity with the antisera was evaluated. The antiserum anti-β 62–81 immunoprecipitated only the β1 receptor. The antiserum anti-α 144–162 determined precipitation of both α1 and α2 proteins but not of the β1 receptor. Anti-α2 431–451 produced a selective precipitation of α2, and had no effect on α1 or β1 receptor. In order to study the interaction of the antibodies with native T3 receptor we evaluated the binding of antibodies to rat liver T3 receptors by Sephacryl S300 chromatography: both antisera anti-β 62–81 and anti-α 144–162 caused a partial shift of the labeled T3–receptor complex to a higher molecular form, while the antibody directed against c-erbA α2 did not produce any significant shift. The anti-peptide antibodies were then immunopurified by affinity chromatography and used to immunolocalize the different forms of c-erb A proteins in adult and fetal rat liver, by a sensitive immunohistochemical technique. All 3 antibodies stained mainly the nuclei of the majority of adult liver cells. No staining was detectable when the original antiserum was deprived of anti-peptide antibodies by running through the affinity columns or when the antibodies were pre-absorbed with the homologous peptide. No significant staining was present in the liver from rat fetus.     

Changes in the nuclear triiodothyronine receptor during the differentiation of preadipocytic cell lines of mice

During the differentiation process of ob 17 preadipocytes in the presence of insulin, a progressive increase in the nuclear T3 receptor concentration per cell (1.5 to 3 fold) was observed. This increase was not found related to the addition of insulin to the culture medium and was concomitant to the expression of several phenotypes of the mature adipocyte. Triiodothyronine (T3) added to the culture medium of these cells increases the lipogenic pathway and several enzymes involved in fatty acid synthesis and esterification. After T3 addition at the same optimal physiologic concentration of 1.5 nM, the cellular concentration of its nuclear receptor was clearly reduced, without any significant alteration in the apparent affinity constant. A similar behavior was observed in 3T3-L1 preadipocytes. The molecular mechanism of action of the T3 nuclear receptor within the chromatin is not known. The biological relevance of its depletion by T3 itself remains to be determined.     

Triiodothyronine nuclear receptor and the role of non-histone protein factors in in vitro triiodothyronine binding

The rat liver triiodothyronine (T3) nuclear receptor rapidly looses, after a partial purification from the nuclear extract, its ability to bind T3. We previously reported that histones, in the presence of DNA, could protect against inactivation enhancing the T3 binding site concentration and maintaining the high affinity for T3. A nuclear fraction discarded during the receptor purification (fraction A) was also found able to restore T3 binding and was analyzed. As histones + DNA, fraction A stabilized the T3 binding site from irreversible inactivation during incubation with T3, increasing its concentration while keeping the same high affinity for T3. It was active even at relatively high receptor concentration, appeared slightly more active than histones (+ DNA) in the same protein concentration range (up to 50-fold increment of T3 binding at the optimal concentration of 25 micrograms/ml) and was unaffected or slightly inhibited by DNA. Other proteins (ovalbumin, soybean trypsin inhibitor, RNAase) and rat liver cytosol were several times less effective, suggesting a major role of some nuclear constituents. The active factors in fraction A essentially belong to non-histone nuclear proteins. Fraction A was found heterogeneous regarding the molecular size and pHi of the active factors, the existence of subfractions more active on a protein concentration basis being suggested but not yet clearly evidenced. Efficient in vitro T3 binding to the isolated T3 nuclear receptor thus depends on the presence of several different nuclear constituents, histones + DNA or some non-histone proteins. Whether interactions with these constituents could modulate T3 binding within the nucleus remains to be elucidated.     

Differentiation of ob 17 preadipocytes to adipocytes. Effect of insulin on the levels of insulin receptors and on the transport of alpha-aminoisobutyrate.

Cells of a clonal cell line (ob 17) isolated from the epididymal fat pad of ob/ob mouse possess insulin receptors. Their number was increased 1.5-fold after growth arrest, with no significant change in the Kd values of the "high affinity" sites determined by extrapolation of the high affinity portion of the curvilinear Scatchard plots. With chronic insulin exposure for 3 to 11 days after confluence, ob 17 cells showed a decrease in insulin receptor concentrations from 8,000 to 1,600 high affinity sites/cell (Kd from 0.45 to 1.10(-9) M) while similar levels of "low affinity" sites were found (80,000 to 100,000 sites/cell; Kd from 10(-8) to 3 x 10(-8) M). The loss of the high affinity binding sites is accompanied by the disappearance of the stimulatory effect by insulin of alpha-aminoisobutyrate uptake. Therefore, in contrast to 3T3-L1 fibroblasts, the ob 17 cells present, in culture, a self-modulation of insulin receptors and a loss of insulin sensitivity after chronic exposure to insulin.     

Cyclic AMP-binding protein and estrogen receptor: antagonism during nuclear translocation in a hormone-dependent mammary tumor

Incubation of nuclei from hormone-dependent rat mammary tumors with its cytosol activated with 5 nM 17β-estradiol resulted in a 4-fold increase of nuclear estrogen binding activity over the control nuclei. The presence of 100 nM cAMP in the activated cytosol inhibited this nuclear uptake of estrogen receptor by 50%. Conversely, incubation of the nuclei with cytosol activated with 100 nM cAMP increased nuclear cAMP binding and cAMP-dependent protein kinase activity 4-fold, while the presence of 5 nM 17β-estradiol in the activated cytosol inhibited the nuclear cAMP binding and the protein kinase activity by 50%. No competition was found between estrogen and cAMP for each other's cytoplasmic binding proteins or the nuclear acceptor sites. These data suggest that a mutual antagonism exists between the cAMP-binding protein and estrogen receptor during their nuclear translocation.     

High affinity binding of [3H] cocaine to rat liver microsomes

[3H]Cocaine bound reversibly, with high affinity (KD 2.3 +/- 1.1 nM) and stereospecificity to rat liver microsomes. Little binding was detected in the lysosomal, mitochondrial and nuclear fractions. The binding kinetics were slow (T1/2 for association, 6 min and for dissociation 17 min), and the kinetically calculated KD was 2 nM. Induction of mixed function oxidases by phenobarbital did not produce significant change in [3H]cocaine binding. On the other hand, chronic administration of cocaine reduced [3H]cocaine binding drastically. Neither treatment affected the affinity of the liver binding protein for cocaine. Microsomes from mouse and human livers had less cocaine-binding protein and lower affinity for cocaine than those from rat liver. Binding of [3H]cocaine to rat liver microsomes was insensitive to monovalent cations and greater than 10 fold less sensitive to biogenic amines than the cocaine receptor in rat striatum. However, the liver protein had higher affinity for cocaine and metabolites except for norcocaine. Amine uptake inhibitors displaced [3H]cocaine binding to liver with a different rank order of potency than their displacement of [3H]cocaine binding to striatum. This high affinity [3H]cocaine binding protein in liver is not likely to be a monooxygenase, but may have a role in cocaine-induced hepatotoxicity.     

INTERFERENCE OF MACROPHAGES WITH IMMUNOTARGETING OF LIPOSOMES

ABSTRACT

We investigated the binding, uptake and intracellular degradation of immunoliposomes by isolated rat liver macrophages in vitro. Immunoliposomes were prepared either by coupling a randomly thiolated anti-CC531 rat colon adenocarcinoma monoclonal antibody to bilayer-incorporated MPB-PE by means of a thioether linkage or by attaching it through its F_c moiety to the distal terminus of hydrazide-modified PEG-DSPE. The two immunoliposome preparations clearly differ in their interaction with the tumor target cells, as well as with the macrophages. At comparable antibody densities both cell types show 1.5–2-fold higher levels of association for the Hz-PEG-immunoliposomes than for the MPB-PEG-immunoliposomes. We provide evidence that immunoliposome macrophage-interaction is both F_c-receptor and scavenger receptor mediated to about equal extents. At low antibody density the hydrazide immunoliposomes favor interaction with the tumor cells to that with macrophages. At higher antibody densities, on the other hand, interaction of these liposomes with the macrophages is increasingly favored, mostly due to enhanced scavenger receptor mediated uptake. The rate of intracellular degradation of (immuno)liposomes internalized by liver macrophages is barely influenced by the presence of either PEG or immunoglobulins on the liposomal surface.     

Bioflavonoid interaction with rat uterine type II binding sites and cell growth inhibition

Competition analysis with a number of known bioflavonoids demonstrated that these compounds (luteolin, quercetin, pelargonin) compete for [3H]estradiol binding to cytosol and nuclear type II sites in rat uterine preparations. The inhibition of [3H]estradiol binding to type II sites was specific and these bioflavonoids did not interact with the rat uterine estrogen receptor. Since estradiol stimulation of nuclear type II sites in the rat uterus is highly correlated with cellular hypertrophy and hyperplasia, we assessed the effects of these compounds on the growth of MCF-7 human breast cancer cells in culture and on estradiol stimulation of uterine growth in the immature rat. The data demonstrated that addition of quercetin (5-10 micrograms/ml) to MCF-7 cell cultures resulted in a dose-dependent inhibition of cell growth (DNA/flask). This effect was reversible by removal of quercetin from the culture medium, or by the addition of 10 nM estradiol-17 beta to these cell cultures containing this bioflavonoid. Since estradiol-17 beta (10 nM) stimulated nuclear type II sites and proliferation of MCF-7 cells, we believe bioflavonoid inhibition of MCF-7 cell growth may be mediated through an interaction with nuclear type II sites. This hypothesis was confirmed by in vivo studies which demonstrated that injection of luteolin or quercetin blocked estradiol stimulation of nuclear type II sites in the immature rat uterus and this correlated with an inhibition of uterine growth (wet and dry weight). These studies suggest bioflavonoids, through an interaction with type II sites, may be involved in cell growth regulation.     

Estrogen interaction with the anterior pituitary of female rats differential cytosol binding, nuclear translocation and stimulation of RNA synthesis by 17β-estradiol and tamoxifen

The interaction of tamoxifen (trans-1-(p-β-dimethylaminoethoxyphenyl)-1,2-diphenylbut-1-ene) with the cytosol estrogen receptor of the anterior pituitary of female rats was studied. No differences were recorded between incubations of cytosol samples with 17β-[³H]estradiol performed in the presence or absence of unlabeled 17β-estradiol and tamoxifen, respectively, thus suggesting that these interactions were at common receptor sites and excluding possible cooperative interactions. Competition experiments and Scatchard plot analysis of saturation experiments add further evidence for common receptor sites. A dissociation constant for tamoxifen of K_d = 2 nM was recorded. Tamoxifen was found to be bound to a moiety sedimenting in the 4–5 S region, on a 6–24% linear sucrose density gradient at low salt concentrations, whereas 17β-estradiol sedimented in the 8–9 S area. These data suggest possible conformational changes of the receptor in the presence of tamoxifen. Furthermore, nuclear estrogen receptor levels remained elevated for at least 80 h after the application of tamoxifen alone or in a combination with 17β-estradiol, and a concomitant inhibition of cytosol receptor replenishment was noted. Tamoxifen and 17β-estradiol, respectively, were found to stimulate progesterone receptor levels when applied through 5 days. Tamoxifen plus 17β-estradiol administration elevated progesterone receptor contents above those found for each of the two compounds alone. On the other hand, tamoxifen enhanced the 17β-estradiol-induced prolactin serum levels, but did not stimulate prolactin serum levels by itself. These data combine to suggest that tamoxifen interacts with common estrogen receptor sites at the rat anterior pituitary.     

Localization of c-ERB A proteins in rat liver using monoclonal antibodies

Monoclonal antibodies were raised against the nuclear thyroid hormone receptors encoded by c-ERB A genes and against a purified nuclear receptor fraction. These antibodies recognize the c-ERB A protein in nuclear extracts from rat liver and are able to compete with thyroid hormone in Scatchard analyses. In sections of rat liver they react with all the hepatocyte nuclei as well as with the cells of the hepatic bile ducts. Comparison with another putative T3 receptor antibody, described previously, showed that distinct 57 kD proteins with a different cellular distribution were recognized.     

H-7 reduces the nuclear binding of [3H]dexamethasone in rat liver slices but does not affect the phosphorylation of glucocorticoid receptor.

The effect of 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H-7), an inhibitor of protein kinase C, on the nuclear binding of [3H]dexamethasone and on the phosphorylation of glucocorticoid receptor was studied in rat liver slices to ascertain the role of protein kinase C in the expression of glucocorticoid action. H-7 reduces the nuclear binding of [3H]dexamethasone in rat liver slices. It does not affect the extent of phosphorylation of glucocorticoid receptor both in the absence or in the presence of glucocorticoid. These findings indicate that protein kinase C may be involved in the nuclear binding of glucocorticoid receptor but does not directly influence the receptor phosphorylation.     

Preclustered receptor arrangement is a prerequisite for galactose-specific clearance of large particulate ligands in rat liver

We had hypothesized that preclustered arrangement of galactose-specific receptor activity on rat liver macrophages enables these cells to internalize multivalent, particulate ligands in contrast to the clearance of molecules mediated by statistically distributed receptors on hepatocytes. We now took advantage of the nonclustered receptor distribution in newborn rat liver macrophages to study the in vivo clearance of particulate ligands. Gold particles 5, 17, and 50 nm in diameter (Au5, Au17, Au50), coated with lactosylated bovine serum albumin (LacBSA), were injected into the vena cava and livers were perfusion fixed after allowing for binding and uptake for 3 min. In sinusoidal cells from rats 15 days old LacBSA-Au5 and LacBSA-Au17 were taken up by endothelial cells and all sizes by liver macrophages. In newborn rat liver no LacBSA-Au50 or LacBSA-Au17 was retained in liver macrophages. Uptake of LacBSA-Au5 by sinusoidal cells was significant. LacBSA-Au17 was taken up in significant amounts by endothelial cells of newborn rats which correlates to the findings that galactose-specific binding sites on endothelial cells were found to localize as clusters over coated pits irrespective of age. These results demonstrate the crucial role of clustered receptors in binding and uptake of larger particulate ligands via this lectin-like binding activity.     

Triiodothyronine and Adipose Conversion of OB17 Preadipocytes: Binding to High Affinity Sites and Effects on Fatty Acid Synthetizing and Esterifying Enzymes

Abstract

Cells of a preadipocyte clonal line (ob 17) isolated from epididymal fat pad of ob/ob mouse possess high-affinity binding sites for triiodothyronine. A single class of sites was found on growing and early confluent cells (K_D 0.14 ± 0.025 nM; 5 000 ± 600 sites per cell). A two-fold increase in the number of T₃ binding sites occurs during adipose conversion, with no significant change in K_D values. The order of potency of structural analogs to compete with ¹²⁵I-T₃ is in favor of nuclear binding sites. A correlation was obtained between this order of potency and the ability of the analogs, included on a long-term basis to confluent cells, to increase ¹⁴C-acetate incorporation into lipids, suggesting an enhancement of de novo fatty acid synthesis. This hypothesis was supported by increased activity levels of fatty acid synthetase after chronic exposure to 1.5 nM triiodothyronine. Under these conditions activity levels of acid:CoA ligase and glycerol-3-phosphate dehydroge-nase were also increased significantly. Inclusion of bromodeoxyuridine as a differentiation-blocking agent in the culture medium of growing cells decreases drastically the T₃ effects, favoring the role of the latter hormone as amplifier of specific phenotypes expressed during adipose conversion. These results show that ob₁₇ cell line should be an useful tool to study the role of thyroid hormones in the regulation of fatty acid synthesis and esterification in adipose cells.     

Biosynthesis and modification of Golgi mannosidase II in HeLa and 3T3 cells

The biosynthesis and post-translational modification of mannosidase II, an enzyme required in the maturation of asparagine-linked oligosaccharides in the Golgi complex, has been investigated. Antibody raised against this enzyme purified from rat liver Golgi membranes was used to immunoprecipitate mannosidase II from rat liver, 3T3 cells, or HeLa cells. Mannosidase II immunoprecipitated from rat liver Golgi membranes, when analyzed by polyacrylamide gel electrophoresis, migrated with an apparent molecular weight of approximately 124,000. In contrast, the enzyme purified from rat liver Golgi membranes was shown to contain both the 124,000-dalton component and a 110,000-dalton polypeptide believed to result from degradation of intact mannosidase II during purification. Mannosidase II from 3T3 and HeLa cells migrated on polyacrylamide gels with apparent molecular weights of approximately 124,000 and 134,000-136,000, respectively. When immunoprecipitated from radiolabeled cultures, mannosidase II from both cell types was similar in the following respects: (a) the initial synthesis product had an apparent molecular weight of approximately 124,000; (b) in cultures treated with tunicamycin the initial synthesis product had an apparent molecular weight of approximately 117,000; (c) endoglycosidase H digestion of the initial synthesis product gave an apparent molecular weight similar to the tunicamycin-induced polypeptide; (d) the mature enzyme was mostly (HeLa) or entirely (3T3) resistant to digestion by endoglycosidase H. Loss of [35S]methionine from intracellular mannosidase II occurred with a half-life of approximately 20 h; there was no appreciable accumulation of labeled immuno-reactive material in the medium. HeLa mannosidase II, but not the 3T3 enzyme, was additionally modified 1-3 h after synthesis, the initial synthesis product being converted to a doublet with an apparent molecular weight of approximately 134,000-136,000. Evidence is presented that this mobility shift may result from O-glycosylation. Mannosidase II from both cell types could be labeled with [32P]phosphate or [35S]sulfate. The latter is apparently attached to oligosaccharide as indicated by inhibition of labeling by tunicamycin; the former was shown with the HeLa enzyme to be present as serine phosphate moieties. In addition, [3H]palmitate could be incorporated into the enzyme in 3T3 cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Glucosidase II, a protein of the endoplasmic reticulum with high mannose oligosaccharide chains and a rapid turnover

Glucosidase II is regarded as a resident protein of the endoplasmatic reticulum. The enzyme removes alpha-1-3-linked glucose from high mannose oligosaccharides N-linked to asparagine residues of glycoproteins. Monospecific antibodies raised against the pig kidney enzyme are used to study the metabolism of the enzyme in a rat hepatoma cell line. These antiglucosidase II antibodies specifically immune precipitate glucosidase II as a 100,000-Da species from [35S]methionine-labeled cells. In addition, protein blotting and immune staining of cell extracts from both rat liver and human and rat hepatoma cell lines show identity in apparent Mr (100,000). Glucosidase II synthesized in the presence of tunicamycin is approximately 94,000 Da, indicating the presence of one or more N-linked oligosaccharide chains. Cell-free protein synthesis of rat hepatoma total RNA demonstrates that glucosidase II is synthesized as a slightly higher molecular weight species as compared to the polypeptide synthesized in whole cells in the presence of tunicamycin, indicating that the enzyme has a cleavable signal sequence. Using a pulse-chase protocol, the apparent molecular weight does not change upon longer chase periods. In addition, the 100,000-Da protein remains sensitive to endo-beta-N-acetylglucosaminidase H regardless of prolonged chase periods. The cells incorporate [3H]mannose into the enzyme; after release with endo-beta-N-acetylglucosaminidase H, most of the radioactivity comigrates with Glc1-Man9-GlcNAc on a gel filtration column. Phase separation in Triton X-114 shows a partition between the aqueous and the Triton phase, the major portion being separated in the aqueous phase. In rat hepatoma cells glucosidase II has a half-life of 50 min. This value is not altered if the cells are grown in the presence of monensin nor of methyl-deoxynoijirimycin. However, tunicamycin and low concentrations or primaquine (raising the pH of acidic compartments) causes a 100% increase in half-life of glucosidase II. We conclude that glucosidase II is a hydrophilic, probably not a transmembrane membrane, protein with a short half-life. It is the first example of an oligosaccharide-processing enzyme not being an integral membrane protein.     

Lectin receptor sites on rat liver cell nuclear membranes.

The presence and localization of lectin receptor sites on rat liver cell nuclear and other endomembranes was studied by light and electron microscopy using fluorescein and ferritin-coupled lectin conjugates. Isolated nuclei labelled with fluorescein-conjugated Concanavalin A (Con A) or wheat germ agglutinin (WGA) often showed membrane staining, which sometimes was especially bright on small stretches of the nuclear surface. Unlabelled nuclei and nuclei with a complete ring fluorescence were also seen. The nuclear fluorescence corresponded in intensity to that seen on the surface of isolated rat liver cells. Con A-ferritin particles were seldom detected on the cytoplasmic surface of the intact nuclear envelope. However, at places where the 2 leaflets of the envelope were widely separated or where the outer nuclear membrane was partly torn away, heavy labelling was seen on the cisternal surface of both the inner and outer nuclear membranes. Labelling with Con A-ferritin was also found on the cisternal side of rough endoplasmic reticulum present in the specimens. No labelling was seen on the cytoplasmic surface of mitochondrial outer membrane. The results demonstrate the presence of binding sites for Con A and WGA in nuclei and an asymmetric localization of these sites on the cisternal side of ribosome-carrying endomembranes in rat liver cells.