EC:1.11.1.8 - FACTA Search

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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)

The distribution of iodine among the polypeptides of human goiter thyroglobulin (Tg) was examined. Tg was iodinated in vitro with 131I to levels of 2 to 84 gram atoms (g.a.)/mol using thyroid peroxidase (TPO) or a chemical iodination system. The samples were reduced, alkylated, and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Two low-molecular-weight peptides appeared preferentially in radioautograms of the sodium dodecyl sulfate (SDS) gels of TPO-iodinated samples. Iodination of these peptides increased sharply in the TPO-treated Tg as the level of total iodine/molecule rose. Radioiodine was incorporated into these same gel regions in the chemically treated Tg, but only after much higher levels of total iodination were reached. Differences in iodoamino acid distribution were also noted between the chemically and enzymatically iodinated thyroglobulins. In the chemically iodinated samples, little thyroxine (T4) was synthesized, even at high iodine levels. In the TPO-treated samples only small amounts of T4 were seen below 14 g.a. total I/mol, while at or above that level of iodination T4 formation increased sharply. To examine the coupling process, Tg was chemically iodinated, excess I- removed, and the samples treated with TPO and a H2O2-generating system in the absence of iodide. Radioautograms obtained from SDS-polyacrylamide gels of reduced and alkylated protein from such coupling assays showed an increase in the level of iodine in the low-molecular-weight peptides after TPO treatment. Thyroxine production also increased with TPO treatment. The addition of free DIT (a known coupling enhancer) to the [131I]Tg/TPO incubation increased both the production of T4 and the amount of iodine in the smaller polypeptides. Two-dimensional maps prepared from CNBr-digested TG showed differences between the coupled and uncoupled samples. Our observations confirm the importance of the low-molecular-weight peptides derived from Tg in thyroid hormone synthesis. At total iodine levels above 14 g.a./mol Tg in enzymatically treated samples there is selective incorporation of iodine into both the low-molecular-weight polypeptides and into thyroid hormone.
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PMID:Differences in iodinated peptides and thyroid hormone formation after chemical and thyroid peroxidase-catalyzed iodination of human thyroglobulin. 683 23

This report describes a method for measurement of TPO activity by the amount of thyroid hormone production. Thyroid hormone formation was accomplished by incubating purified iodine-poor Tg with human TPO for 60 min at 37 C in the presence of free DIT, KI, and an H2O2 source. Newly formed T3 and T4 were measured by radioimmunoassay of the Tg hydrolysates. With this method, TPO-catalyzed iodination of Tg and thyroid hormone formation were measured simultaneously from eight normal thyroid glands and 15 thyroid glands from MMI-treated patients with Graves' disease. Graves' disease TPO showed iodinating activity and T4 formation which was higher than that of TPO from normal thyroids, and there was a positive linear correlation between the iodinating activity and the amount of T4 formation. T3 production by highly active TPO, however, dissociates from the amount of T4 formation and the degree of Tg iodination. Thus, if the activity of TPO is to be measured by the amount of thyroid hormone production, T4 should be used rather than T3. The method of thyroid hormone formation described here provides a new and physiological measurement of TPO activity and should be useful for investigation of the role of human TPO in thyroid hormone formation.
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PMID:Thyroid hormone formation catalyzed by human thyroid peroxidase: a new and physiological measurement of thyroid peroxidase. 689 10

Stopped flow experiments were carried out with purified hog thyroid peroxidase (A413 nm/A280 nm = 0.42). In the steady state of oxidations of L- and D-tyrosines, N-acetyltyrosinamide, and monoiodotyrosine, thyroid peroxidase existed in the form of Compound I, the primary catalytic intermediate of peroxidase in its reaction with H2O2. Kinetic results led us to conclude that thyroid peroxidase catalyzes two-electron oxidations of these molecules. In the steady state of oxidation of diiodotyrosine, on the other hand, the enzyme was found in the form of compound II at pH 7.4, but in the form of compound I at pH 5.5. The result implies that the mechanism of diiodotyrosine oxidation varied from a one-electron to a two-electron type as the pH decreased. The selection of mechanisms of oxidation appears to be peculiar to thyroid peroxidase; horseradish peroxidase and lactoperoxidase catalyzed only one-electron oxidations of these five donor molecules. Rate constants for rate-limiting steps in the reactions of these donor molecules with the three peroxidases were measured by overall kinetic and stopped flow kinetic methods.
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PMID:One- and two-electron oxidations of tyrosine, monoiodotyrosine, and diiodotyrosine catalyzed by hog thyroid peroxidase. 714 55

The formation of Compounds I, II, and III of hog thyroid peroxidase was demonstrated in its reaction with H2O2 by spectrophotometric and kinetic methods combined with a stopped flow technique. Hog thyroid peroxidase reacted with H2O2 to form Compound I with a rate constant of 5.2 X 10(6) M-1 s-1. Compound I was then spontaneously converted to Compound II with a rate constant of 8 s-1. In the presence of 200 microM H2O2, Compound II ws further converted to Compound III (or oxyform) with a half-life of 0.8 s. During the peroxidative oxidation of tyrosine, thyroid peroxidase was present as Compound I, and the rate constant for the reaction of Compound I with tyrosine was measured at 1.4 X 10(4) M-1 s-1. The addition of iodide to the above reaction system markedly decreased the steady state concentration of Compound I. From the kinetic data, it was concluded that the reaction between Compound I and iodide occurred by way of a 2-electron transfer and the rate constant was roughly estimated at 2.1 X 10(7) M-1 s-1. This value was much higher than that obtained from overall kinetic data. Similar reactions were carried out with bovine lactoperoxidase and the kinetic data for the two enzymes were compared. The primary oxidation product of iodide was suggested to be iodinium cation (I+) in either enzyme reaction.
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PMID:Analyses of catalytic intermediates of hog thyroid peroxidase during its iodinating reaction. 745 75

Previous experiments led us to speculate that thyrocytes contain a recycling system for GlcNAc-bearing immature thyroglobulin molecules which prevents these molecules from lysosomal degradation (Miquelis, R., C. Alquier, and M. Monsigny. 1987. J. Biol. Chem. 262:15291-15298). To confirm this hypothesis, the fate of GlcNAc-bearing proteins after internalization by thyrocytes was monitored and compared to that of fluid phase markers. Kinetic internalization studies were performed using 125I-GlcNAc-BSA and 131I-Man-BSA. We observed that the apparent intake rate as well as the amount of hydrolyzed GlcNAc-BSA are smaller than the corresponding values for Man-BSA. These differences were reduced by GlcNAc competitors (thyroglobulin and ovomucoid) or a weak base (chloroquine). Part of the internalized GlcNAc-BSA was released into the extracellular milieu at a higher rate and shorter half life (t1/2 = approximately 30 min) than the Man-BSA (t1/2 = approximately 8 h). Subcellular homing was first studied by cell fractionation after internalization using 125I-ovomucoid and 131I-BSA. During Percoll density gradient fractionation, endogenous thyroperoxidase was used to separate subsets of organelles involved in the biosynthetic exocytotic pathway. Incubation of the cell homogenate in the presence of DAB and H2O2 before cell fractionation give rise to a shift in the density of organelles containing 3.5 times more ovomucoid than BSA. Discontinuous sucrose gradient showed that: (a) thyroperoxidase was colocalized with galactosyltransferase-contraining organelles in Golgi-rich subfractions; and (b) that at every time studied from 10 to 100 min, the ovomucoid/BSA ratio was higher in these organelles than in other subfractions. Finally we also observed that: (a) ovomucoid sequestered in the Golgi-rich subfraction incorporated [3H]galactose; and (b) that part of internalized ovomucoid was localized on the Golgi stacks as well as elements of the trans-Golgi, as revealed by immunogold labeling on ultrathin cryosections. These data prove that in thyrocytes GlcNAc accessible sugar moieties on soluble internalized molecules are sufficient to trigger their recycling via the Golgi apparatus.
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PMID:Intracellular routing of GLcNAc-bearing molecules in thyrocytes: selective recycling through the Golgi apparatus. 750 65

The dog thyrocyte I- trapping activity and the expression of the genes coding for dog thyrocyte thyroglobulin or thyroid peroxidase are enhanced by TSH through the cAMP cascade and reduced by mitogens such as epidermal growth factor (EGF) or 12-O-tetradecanoylphorbol 13-acetate (TPA). In this work, we investigated whether H2O2 generation (a limiting step of thyroid hormone synthesis) is modulated by chronic treatment of the thyrocyte with TSH or mitogens such as EGF or TPA. We observed that both basal and carbachol- or ionomycin-stimulated H2O2 generation by the dog thyrocyte were concentration and time dependently enhanced by prolonged (12- to 72-h) exposure to TSH. This effect was reproduced by agents that increase the dog thyrocyte cAMP level or that mimic this increase. It was abolished when protein or RNA synthesis was inhibited. By contrast, EGF and TPA concentration and time dependently antagonized the effect of TSH. In addition, chronic exposure to EGF reduced both basal and carbachol- or ionomycin-stimulated H2O2 generation. The effect of TPA was reproduced by another protein kinase-C activating phorbol ester, phorbol dibutyrate, but not by beta-phorbol, an inactive phorbol ester. Modulation of dog thyrocyte H2O2 generation by chronic exposure to TSH or to the mitogens EGF and TPA was totally parallel to the modulation of their 125I- uptake. Taken together our results suggest that H2O2 generation (or at least one of its constituents) is a differentiation characteristic of the dog thyrocyte under tonic control of TSH through the cAMP cascade as iodide transport, thyroid peroxidase, and thyroglobulin.
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PMID:Tonic modulation of dog thyrocyte H2O2 generation and I- uptake by thyrotropin through the cyclic adenosine 3',5'-monophosphate cascade. 786 6

6-Propylthiouracil (PTU), a widely used antithyroid drug for the treatment of Graves' disease, is also a potent inhibitor of Type I iodothyronine deiodinase (ID-1). Inhibition of ID-1 was attributed initially to the formation of a mixed disulfide between PTU and a putative cysteine residue at the active site. It has been demonstrated recently that ID-1 is a selenium-containing enzyme, with selenocysteine, rather than cysteine, at the active site. It seemed possible, therefore, that the selenium analog of PTU (PSeU) might be a more potent inhibitor of ID-1 than PTU. To test this possibility, we developed a procedure for the synthesis of PSeU, and we compared PSeU and PTU as inhibitors of ID-1 in a test system containing 125I-rT3, rat liver microsomes, and dithiothreitol. Deiodinase activity was measured by the increase in 125I-iodide. PTU and PSeU were tested at 0.1, 0.3, 1 and 3 microM. Based on results of four separate experiments, the drugs were essentially equipotent as inhibitors of ID-1, although statistical analysis suggested that PSeU may be slightly more potent than PTU. PTU and PSeU were also compared for antithyroid activity in vivo and in vitro. As inhibitors of the catalytic activity of thyroid peroxidase (TPO), the two drugs were essentially equipotent in iodination and guaiacol assays involving measurements made shortly after the addition of H2O2. However, in in vivo experiments with rats, PSeU showed no appreciable inhibition of organic iodine formation in the thyroid, whereas PTU, as expected, was a potent inhibitor. The lack of inhibition of organic iodine formation in vivo by PSeU suggests that, unlike PTU, it is not concentrated by the thyroid gland. In an iodination system in which H2O2 was generated by glucose-glucose oxidase, both PTU and PSeU, when present at 10 microM, acted as reversible inhibitors of iodination. However, when the drug concentration was raised to 50 microM, TPO was inactivated and iodination was irreversibly inhibited. These results suggest that PTU and PSeU inhibit TPO-catalyzed iodination by similar mechanisms. Under the same conditions, the selenium analog of methimazole (another widely used antithyroid drug) does not inactivate TPO. It acts primarily as a reversible inhibitor of TPO-catalyzed iodination.
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PMID:The selenium analog of 6-propylthiouracil. Measurement of its inhibitory effect on type I iodothyronine deiodinase and of its antithyroid activity. 788 85

The major nonpolar iodolipid formed in horse thyroid cells has recently been identified as 2-iodohexadecanal (2-IHDA). We have investigated in vitro the effect of 2-IHDA on the NADPH-oxidase, NADPH-cytochrome c reductase, and thyroid peroxidase (TPO) activities of a porcine thyroid plasma membrane preparation. 2-IHDA inhibited NADPH-oxidase activity, with half-inhibition at 3-5 microM, but it had no effect on NADPH-cytochrome c reductase. It inhibited the TPO-catalyzed iodination of protein, but not iodide oxidation. Hexadecanal also inhibited NADPH-oxidase. Inhibition by the non-iodinated lipid aldehydes depended on the length of their aliphatic chain: dodecanal and tridecanal gave maximal inhibition. Free iodide, 2-iodohexadecanol and palmitic acid all had no inhibitory effect. Washing treated membranes showed that the inhibition of NADPH-oxidase by hexadecanal was fully reversible, whereas that of 2-IHDA and other iodinated or brominated alkanals was irreversible. Thus the interaction between some residues of the thyroid NADPH-oxidase and the lipid aldehyde groups was favored or stabilized by the iodine atom. Modification of primary amine and thiol groups of NADPH-oxidase inhibited its activity. These groups could also be the target of lipid aldehydes. We suggest that 2-IHDA, because it inhibits TPO and more profoundly the H2O2-generating system in thyroid plasma membrane, modulates iodide metabolism in the thyrocyte and may mediate the Wolff-Chaikoff effect.
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PMID:Inhibition of thyroid NADPH-oxidase by 2-iodohexadecanal in a cell-free system. 818 56

Thyroid peroxidase catalyzes the two-electron oxidations of tyrosine and monoiodotyrosine, and one-electron oxidation of diiodotyrosine. This difference in the oxidation, with tyrosine and diiodotyrosine, is also observed in the reaction of thyroid peroxidase with 0.2 and 0.7% iodine thyroglobulins. The results support the hypothesis that the increase in the diiodotyrosine residue in thyroglobulin inhibits further iodination by switching the catalytic cycle to oxidative coupling, to form thyroid hormones. Thyroid hormone synthesis requires iodide, H2O2, thyroglobulin and thyroid peroxidase. The stimulation of iodide uptake and H2O2 generation in the thyroid, as well as, protein synthesis of thyroglobulin and thyroid peroxidase in response to TSH has been reported. The regulation of thyroid hormone synthesis in the thyroid peroxidase reaction and through the peroxidase system is summarized.
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PMID:[Molecular mechanism of thyroid hormone synthesis]. 819 70

Effects of anesthetics on thyroidal hydrogen peroxide generating system was studied using porcine thyroid follicles. This system is indispensable in thyroid hormone synthesis and seems also to play an important role in regulation of thyroid hormone release. The results indicated that H2O2 generation was controlled by Ca2+ ion mobilization and protein kinase-C linked signal transduction system. It was also demonstrated that thiopental, halothane, and enflurane had inhibitory effects on H2O2 generation system in thyroid follicle cells, and 50% inhibitory concentrations (IC50) of each anesthetic drug were 60 microM, 2.5% and 4.0%, respectively. Other anesthetic agents, such as local anesthetics and major tranquilizers did not show any inhibitory effects on porcine thyroid peroxidase activity as well as on the regulation of thyroid hormone release. Other than inhaled anesthetic agents, thiopental only is thought to have an antithyroid effects in clinical situation.
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PMID:[In vitro effects of anesthetics on hydrogen peroxide generating system of the thyroid gland]. 830 32

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