EC:1.11.1.8 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.8 (thyroid peroxidase)
3,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experiments were performed to investigate the species difference in antithyroid effects of propylthiouracil (PTU) and sulfamonomethoxine (SMM). Sprague-Dawley rats were administered 30 mg/kg of PTU, or 30 or 270 mg/kg of SMM orally for 5 weeks, while squirrel monkeys received 30 mg/kg of PTU or 270 mg/kg of SMM. In rats receiving 30 mg/kg of PTU, a decrease of both serum 3,5,3'-triiodothyronine and thyroxine concentrations and of 131I incorporation into the thyroid hormone precursors was observed, together with elevation of serum thyroid-stimulating hormone concentration, an increase in thyroid weight, and hyperplasia of the follicular epithelium of the thyroid gland. Similar changes were seen in rats receiving 270 mg/kg of SMM; however, the antithyroid effects of SMM were less severe than those of PTU. No change was produced in monkey thyroids by 5-week treatments with 30 mg/kg of PTU or with 270 mg/kg of SMM. The molar concentration of PTU required for the in vitro inhibition of thyroid peroxidase was markedly lower in rats than in monkeys. SMM showed a similar species difference in the inhibition of thyroid peroxidase in vitro, but the enzyme inhibition of SMM was weaker than that of PTU. These findings suggest that rats were more sensitive to the antithyroid effects of PTU and SMM than monkeys, and that inhibition of thyroid peroxidase may play an important role in species difference in the antithyroid effects of the two drugs.
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PMID:Antithyroid effects of propylthiouracil and sulfamonomethoxine in rats and monkeys. 241 34

Amitrole (3-amino-1,2,4-triazole) meets the criteria for a suicide (mechanism-based) inhibitor of lactoperoxidase. Amitrole causes rapid inactivation of lactoperoxidase only in the presence of hydrogen peroxide, and the kinetics are consistent with a suicide mechanism. Approximately 7 mol of radiolabeled amitrole binds covalently per equivalent of lactoperoxidase activity lost. The visible spectrum of lactoperoxidase inactivated by amitrole is unchanged, suggesting that covalent modification of the heme prosthetic group does not occur. The 13C NMR spectrum of lactoperoxidase inactivated by [13C]amitrole shows unique resonances which support the hypothesis that covalent binding occurs on the protein moiety. The similarities between lactoperoxidase and thyroid peroxidase suggest a similar mechanism for inhibition of thyroid hormone synthesis by amitrole.
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PMID:Suicide inactivation of lactoperoxidase by 3-amino-1,2,4-triazole. 251 7

The plasma membrane fraction from porcine thyroid is known to exhibit an NADPH-dependent production of hydrogen peroxide (H2O2), which is utilized for the oxidative biosynthesis of thyroid hormones catalyzed by thyroid peroxidase. The H2O2 formation is cyanide-insensitive, ATP-activatable, and Ca2+-dependent (Nakamura, Y., Ogihara, S., and Ohtaki, S. (1987) J. Biochem. (Tokyo) 102, 1121-1132). It remains unknown, however, whether H2O2 is produced directly from molecular oxygen (O2) or formed via dismutation of superoxide anion (O2-). We therefore attempted to analyze the mechanism of H2O2 formation by utilizing a new method for the simultaneous measurement of O2- and H2O2, in which diacetyldeuteroheme-substituted horseradish peroxidase was employed as the trapping agent for both oxygen metabolites. When NADPH was incubated with the membrane fraction in the presence of the heme-substituted peroxidase, a massive O2 consumption was observed together with the formation of compound III, and O2- adduct of the peroxidase. The amounts of compound III formed and O2 consumed were stoichiometric with each other, while formation of compound II, an indicative of H2O2, was not observed during the reaction. On the other hand, when an excess amount of superoxide dismutase was included in the reaction mixture, compound II was produced with complete suppression of the compound III formation. NADH minimally supported both O2 consumption and formation of compound III or II. These results indicate that the NADPH oxidase in the plasma membrane of thyroid produces O2- as the primary metabolite of O2 and hence that H2O2 required for the thyroid hormone synthesis provided through the dismutation of O2-.
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PMID:Superoxide anion is the initial product in the hydrogen peroxide formation catalyzed by NADPH oxidase in porcine thyroid plasma membrane. 253 59

We have previously demonstrated that interferon-gamma (IFN-gamma) induced HLA-DR antigen and also inhibited thyrotropin (TSH)-induced triiodothyronine (T3) and thyroglobulin (Tg) secretion from cultured human thyrocytes. In order to further clarify the inhibitory effect of IFN-gamma on TSH-stimulated thyroid hormone secretion, we have examined human thyroid peroxidase (TPO) gene expression. Thyrocytes dispersed from Graves' thyroid tissues were incubated with TSH with or without IFN-gamma. Total RNA was extracted, separated and hybridized with 32P-labelled human TPO cDNA. Thyrocytes expressed four TPO mRNA transcripts (4.0, 3.2, 2.1 and 1.7kb, respectively), all of which were stimulated by TSH. IFN-gamma inhibited TSH-stimulated TPO mRNA in a dose dependent manner (0.01-10U/mL). 1 U/mL IFN-gamma caused maximal suppression of TSH-stimulated TPO mRNA levels to basal levels. IFN-gamma also inhibited 8-bromo-cyclic AMP-stimulated TPO mRNA levels. In contrast, the gamma-actin mRNA hybridization signal was not altered in control or treated cells. These results demonstrate that IFN-gamma directly inhibits TSH-stimulated TPO gene expression and provide further support for a role of IFN-gamma as a local modulator of thyroid hormone synthesis.
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PMID:Interferon-gamma inhibits thyrotropin-induced thyroidal peroxidase gene expression in cultured human thyrocytes. 254 66

The nature of the immunosuppressive effect of antithyroid drugs has been a subject of controversy. It has been claimed that these agents exert a direct effect on the immune system, although we and others have suggested that the drugs affect the thyroid cells primarily with consequent reduced thyrocyte-immunocyte signalling. This may occur from reduced thyroid hormone production and/or reduced antigen presentation by the thyrocytes to local T lymphocytes. Using a cytotoxicity assay system, with chromium-51 labelling, monoclonal antibodies against thyroperoxidase (TPO) and HLA-DR, and complement, we have measured the expression of TPO and HLA-DR on cultured normal human thyroid cells; we have also measured thyroglobulin (Tg) release by radioimmunoassay into the medium of the cultured cells. The thyroid cells were stimulated with TSH or thyrotropin binding inhibitory immunoglobulin (TBII) for 48 hours before measuring for TPO induction, and with interferon gamma (IFN-gamma) (with or without TSH or TBII) for thyrocyte HLA-DR expression. A dosage of 1.6 milliunits per ml of TSH resulted in a significant increase in TPO expression on thyrocytes when compared with control unstimulated thyroid cells (p less than 0.001). The concentrations of Tg released into the medium with TSH or TBII were also significantly higher than those of the control thyrocytes. IFN-gamma at 200 units per ml induced HLA-DR expression, but did not induce thyrocyte TPO expression, or Tg release. Addition of the antithyroid drug, methimazole (MMI), at different concentrations, in addition to the other stimulators, IFN-gamma, TSH, or TBII, did not result in any inhibition of TPO, Tg release, or HLA-DR expression on the thyroid cells. It would thus appear that the pathways for stimulation for the expression of TPO and HLA-DR appear to be different. Finally, MMI does not cause its immunosuppressive effect by any reduction of thyroid antigen expression or release.
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PMID:Lack of effect of methimazole on thyrocyte cell-surface antigen expression. 257 90

In this experiment, goiter was successfully induced in rat with MMI, and the antigoiter effect of 25% and 50% casein diet was observed. The results showed that the diet with 50% casein is more effective than that with 25% casein in counteracting MMI and preventing goiter in rat. The antigoiter mechanisms of high protein nutrition might be as follows: Protecting the mechanism of thyroid iodine transportation through the follicular cell, and therefore accelerating thyroid iodine metabolism; Relieving thyroid peroxidase (TPO) from the inhibitive effect of MMI and facilitating thyroid hormone synthesis; Coordinating the function of hypothalamus-pituitary-TSH-thyroid axis and protecting the wholeness of thyroid cell and thus avoiding the occurrence of pathological changes.
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PMID:[Experimental study on the antigoiter effect of high casein nutrition]. 259 92

In previous communications we described an in vitro model system containing highly purified thyroid peroxidase (TPO) for studying the mechanism of inhibition of thyroid hormone biosynthesis by the antithyroid drugs, 6-propylthiouracil (PTU) and 1-methyl-2-mercaptoimidazole (MMI). We showed that inhibition of iodination of thyroglobulin in this system may be reversible or irreversible depending on the relative concentrations of iodide and drug and the TPO concentration. Metabolism of the drugs occurred under both conditions, but was more limited under irreversible conditions of inhibition. It was of interest to examine the nature of the drug metabolites associated with reversible and irreversible conditions of inhibition. For this purpose we have employed the 35S- and 14C-labeled drugs and a recently developed reverse phase HPLC procedure. Results of a similar study with MMI were reported in an earlier communication. In the present study we report our findings with PTU. Under conditions of reversible inhibition, PTU was readily metabolized and by 15 min was reduced to a few percent of the starting value. The earliest detectable metabolite with both [35S]- and [14C]PTU was the disulfide, which reached a peak in about 15 min and then slowly declined. Coincident with the decline in the disulfide was the appearance of more polar metabolites. In the case of [35S]PTU, these corresponded to sulfate/sulfite, PTU sulfonate, and a product tentatively identified as PTU sulfinate. The latter two were also observed as 14C-labeled metabolites produced from [14C]PTU. Two nonpolar desulfurated 14C-labeled metabolites were also observed. Surprisingly, these did not correspond to either propyluracil or propyldeoxyuracil, the anticipated most likely products of PTU desulfuration. The identity of these desulfurated metabolites of PTU in the TPO model system remains to be determined. Under conditions of irreversible inhibition of iodination, a relatively small fraction of PTU was metabolized. PTU disulfide was, again, the earliest detectable metabolite, and it declined with time. However, only small amounts of other metabolites were observed, in contrast to the results obtained under conditions of reversible inhibition of iodination. As in the case of MMI, the difference in metabolic pattern between reversible and irreversible conditions is primarily related to the rapid inactivation of TPO that occurs under irreversible conditions. In general, the metabolism of PTU by the TPO model system resembled that previously observed with MMI. With both drugs, the disulfide was the earliest detectable metabolite, and under conditions of reversible inhibition of iodination, an appreciable fraction of the sulfur was oxidized as far as sulfate/sulfite.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolism of 35S- and 14C-labeled propylthiouracil in a model in vitro system containing thyroid peroxidase. 265 49

The enzyme thyroid peroxidase (TPO) plays a central role in thyroid hormone synthesis and is the target for the autoimmune attack in lymphocytic thyroiditis. We have examined the activation of the TPO gene in cultured human thyrocytes using slot-blot hybridization with a synthetic 40 mer oligonucleotide probe derived from the nucleotide sequence of the human TPO gene. The oligonucleotide probe was shown by Northern blotting to hybridize specifically to an approximately 3 kb RNA species from thyroid tissue of patients with Graves' disease, but not to RNA preparations from human or bovine retinal tissue, providing compelling evidence for the specificity of the probe for TPO mRNA. Addition of TSH (10 mU/ml) to primary thyroid cultures for 4 h led to increased TPO mRNA levels which were maximal after 48 h and significantly higher than basal even after 7 days of co-culture. Activation of TPO mRNA by TSH showed dose dependency over a wide range (0.01-100 mU/ml), with a maximal effect at 10 mU TSH/ml in cells cultured for a period of 72 h. Comparison of TPO mRNA levels with the accumulation of thyroglobulin mRNA levels following stimulation by TSH indicated that the induction of the gene encoding thyroglobulin precedes transcription of the TPO gene. The adenylate cyclase activator forskolin (1-100 microM) mimicked TSH in increasing TPO mRNA levels whilst, in contrast, the phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA; 0.01-1 microM) led to levels of TPO mRNA that were lower than basal. Thus TSH induces a specific dose-dependent activation of TPO mRNA which is mimicked by agents which increase cyclic AMP. In contrast, TPA-induced activation of protein kinase C inhibits this response.
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PMID:Activation of the thyroid peroxidase gene in human thyroid cells: effect of thyrotrophin, forskolin and phorbol ester. 274 42

We have already demonstrated the inhibitory effect of interleukin 1 on thyroglobulin gene expression. Recent availability of thyroid peroxidase cDNA has allowed us to investigate the regulation of thyroid peroxidase gene. Therefore, the regulation of thyroid peroxidase mRNA by interleukin 1 in cultured human thyrocytes was investigated. Thyrocytes dispersed from thyroid tissues from patients with Graves' disease were incubated with TSH with or without recombinant human interleukin 1. Unstimulated human thyrocytes did not contain any detectable thyroid peroxidase mRNA, however, TSH-stimulated thyrocytes expressed four thyroid peroxidase mRNA transcripts (4.0, 3.2, 2.1 and 1.7 kb, respectively). Both interleukin 1 alpha and beta inhibited TSH-induced thyroid peroxidase mRNA in a dose responsive manner; 10(3) U/1 interleukin 1 caused maximal suppression of TSH-induced thyroid peroxidase mRNA level to nearly basal levels. Interleukin 1 also inhibited cAMP analogue 8-bromo-cyclic AMP induced thyroid peroxidase mRNA level. In contrast the gamma-actin mRNA hybridization signal was not altered in control or treated cells. These results demonstrate that interleukin 1 directly inhibits TSH-induced thyroid peroxidase gene expression and provide further evidence for a paracrine role of interleukin 1 as a local inhibitor of thyroid hormone synthesis.
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PMID:Inhibition of human thyroid peroxidase gene expression by interleukin 1. 280 Sep 21

Pregnant rats were submitted to a selenium-deficient diet immediately after mating; it was continued for 4 weeks after delivery. The pups were sacrificed at 3 and 4 weeks of age. Perchlorate, an antithyroid agent inhibiting iodide trapping in the thyroid, was administered via the drinking water to half of the rats. Rats submitted to a normal laboratory diet and to the experimental diet supplemented with selenium were used as controls. The effects of selenium deficiency were an increase in the number of growth abnormalities, growth retardation, and decreased seleno-dependent glutathione peroxidase (GSH-Px) activity in plasma and in various organs. These effects were relieved by selenium supplementation in the diet. Perchlorate treatment induced the classic picture of primary hypothyroidism. Selenium deficiency increased thyroid hormone levels in perchlorate-treated rats and in controls drinking tap water. In the latter group, it also decreased TSH plasma concentration and thyroid weight. These effects were partially reversed by Se supplementation. In vitro experiments, performed on adult rats, revealed increased radioiodide uptake and organification in glands from the rats submitted to the selenium-free diet. Plasma T3 half-life was similar in control and Se-deficient rats. These data suggest a higher efficiency of thyroid hormone synthesis in the thyroids of selenium-deficient rats, despite a lower thyroid stimulation as evaluated by serum TSH. They are compatible with the hypothesis that decreased selenium supply, leading to a decreased GSH-Px in the thyroid, increases hydrogen peroxide steady state level and thus thyroid peroxidase activity and thyroid hormone synthesis.
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PMID:Effects of a selenium deficient diet on thyroid function of normal and perchlorate treated rats. 284 Jul 92

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