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Query: EC:1.6.3.1 (
NADPH oxidase
)
11,281
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hydrogen peroxide is the final electron acceptor for the biosynthesis of thyroid hormone catalyzed by
thyroperoxidase
at the apical surface of thyrocytes. Pig and human thyroid plasma membrane contain a Ca(2+)-dependent
NAD(P)H oxidase
that generates H(2)O(2) by transferring electrons from NAD(P)H to molecular oxygen. We purified from pig thyroid plasma membrane a flavoprotein which constitutes the main, if not the sole, component of the thyroid
NAD(P)H oxidase
. Microsequences permitted the cloning of porcine and human full-length cDNAs encoding, respectively, 1207- and 1210-amino acid proteins with a predicted molecular mass of 138 kDa (p138(Tox)). Human and porcine p138(Tox) have 86.7% identity. The strongest similarity was to a predicted polypeptide encoded by a Caenorhabditis cDNA and with rbohA, a protein involved in the Arabidopsis
NADPH oxidase
. p138(Tox) shows also similarity to the p65(Mox) and to the gp91(Phox) in their C-terminal region and have consensus sequences for FAD- and NADPH-binding sites. Compared with gp91(Phox), p138(Tox) shows an extended N-terminal containing two EF-hand motifs that may account for its calcium-dependent activity, whereas three of four sequences implicated in the interaction of gp91(Phox) with the p47(Phox) cytosolic factor are absent in p138(Tox). The expression of porcine p138(Tox) mRNA analyzed by Northern blot is specific of thyroid tissue and induced by cyclic AMP showing that p138(Tox) is a differentiation marker of thyrocytes. The gene of human p138(Tox) has been localized on chromosome 15q15.
...
PMID:Purification of a novel flavoprotein involved in the thyroid NADPH oxidase. Cloning of the porcine and human cdnas. 1060 Dec 91
A calcium and NAD(P)H-dependent H(2)O(2)-generating activity has been studied in paranodular thyroid tissues from four patients with cold thyroid nodules and from nine diffuse toxic goiters. H(2)O(2) generation was detected both in the particulate (P 3,000 g) and in the microsomal (P 100,000 g) fractions of paranodular tissue surrounding cold thyroid nodules (PN), with the same biochemical properties described for
NADPH oxidase
found in porcine and human thyroids. In PN tissues, the particulate
NADPH oxidase
activity (224 +/- 38 nmol H(2)O(2) x h(-1) x mg(-1) protein) was similar to that described for the porcine thyroid enzyme. However, no
NADPH oxidase
activity was detectable in the particulate fractions from eight diffuse toxic goiter patients treated with iodine before surgery; all but one also received propylthiouracil or methimazole in the preoperative period. Thyroid cytochrome c reductase (diffuse toxic goiters = 438 +/- 104 nmol NADP(+) x h(-1) x mg(-1) protein; PN = 78 +/- 10 nmol NADP(+) x h(-1) x mg(-1) protein) and
thyroperoxidase
(diffuse toxic goiters = 621 +/- 179 U x g(-1) protein; PN = 232 +/- 121 U x g(-1) protein) activities were unaffected by iodide. Thus, the human
NADPH oxidase
seems to be inhibited by iodinated compounds in vivo and probably is an enzyme involved in the Wolff-Chaikoff effect. Our findings reinforce the hypothesis that
thyroid NADPH oxidase
is responsible for the production of H(2)O(2) necessary for thyroid hormone biosynthesis.
...
PMID:Ca(2+)/nicotinamide adenine dinucleotide phosphate-dependent H(2)O(2) generation is inhibited by iodide in human thyroids. 1154 71
We have recently cloned two thyroid-specific cDNAs encoding new members of the
NADPH oxidase
family. ThOX1 and ThOX2 proteins are colocalized with
thyroperoxidase
at the apical membrane of human thyroid cells. In the present study we have determined their subcellular localization and maturation in relation to their enzymatic activity. A majority of
ThOX
proteins accumulated inside the cell and only a small fraction was expressed at the surface. Western blots demonstrated that
ThOX
's are glycoproteins of 180,000 and 190,000. When totally deglycosylated the molecular weight of both ThOX1 and ThOX2 drops to 160,000. Ca(2+) stimulates the basal H(2)O(2) generation in PC Cl3 cells at a level corresponding to 20% of the leukocyte H(2)O(2) production stimulated by PMA. Nonthyroid cell lines transfected with ThOX1 and ThOX2 show only a single immunoreactive band in Western blot analysis, corresponding to the protein of 180,000. This "immature" protein remains exclusively intracellular and does not present any enzymatic activity. This is not modified by coexpression of
thyroperoxidase
and p22(Phox). Transfection of
ThOX
cDNAs into PLB-XCGD cells does not reconstitute their
NADPH oxidase
activity. We conclude that (1) the thyroid contains some elements of the leukocyte H(2)O(2)-generating system but not all of them; (2)
ThOX
's are predominantly or exclusively located inside the cell in thyrocytes or in transfected cells, respectively, and as such they are inactive; (3)
ThOX
's cannot replace gp91(Phox) in the leukocyte; and (4) the thyroid H(2)O(2)-generating system is analogous to the leukocyte system with regard to
ThOX
's and gp91(Phox) but very different in other aspects. Additional thyroid-specific components are probably required to get complete protein processing and full enzymatic activity in the thyroid.
...
PMID:Characterization of ThOX proteins as components of the thyroid H(2)O(2)-generating system. 1182 74
Thyrotropin (TSH) and transforming growth factor beta 1 (TGFbeta1) have major roles in the regulation of folliculogenesis and differentiation in thyroid cells. Isolated porcine thyroid cells cultured in the presence of TSH on a plastic surface recover a follicular architecture and exhibit normal functional properties. The addition of TGFbeta1 to the culture medium induces important morphological changes and extracellular matrix remodelling. Similarly, thyroid cells lose their ability to organify iodine and their responsiveness to adenylate cyclase. The aim of this study was to analyse the influence of TGFbeta1 on the functional activity of thyrocytes in suspension culture, independent of follicle disruption. In this system, we demonstrate that TGFbeta1 inhibits expression of
thyroperoxidase
,
NADPH oxidase
activity, iodine uptake and, consequently, iodine organification. Moreover, TGFbeta1 decreases basal and TSH-stimulated cAMP production and TSH receptor expression. Taken together, these data converge to demonstrate an essential role of TGFbeta1 in the regulation of the thyroid cell function.
...
PMID:TGFbeta1 effects on functional activity of porcine thyroid cells cultured in suspension. 1201 Jun 42
H2O2 generation is a limiting step in thyroid hormone biosynthesis. Biochemical studies have confirmed that H2O2 is generated by a thyroid Ca2+/NADPH-dependent oxidase. Decreased H2O2 availability may be another mechanism of inhibition of
thyroperoxidase
activity produced by thioureylene compounds, as propylthiouracil (PTU) and methimazole (MMI) are antioxidant agents. Therefore, we analyzed whether PTU or MMI could scavenge H2O2 or inhibit
thyroid NADPH oxidase
activity in vitro. Our results show that PTU and thiourea did not significantly scavenge H2O2. However, MMI significantly scavenged H2O2 at high concentrations. Only MMI was able to decrease the amount of H2O2 generated by the glucose-glucose oxidase system. On the other hand, both PTU and MMI were able to partially inhibit
thyroid NADPH oxidase
activity in vitro. As PTU did not scavenge H2O2 under the conditions used here, we presume that this drug may directly inhibit
thyroid NADPH oxidase
. Also, at the concentration necessary to inhibit
NADPH oxidase
activity, MMI did not scavenge H2O2, also suggesting a direct effect of MMI on
thyroid NADPH oxidase
. In conclusion, this study shows that MMI, but not PTU, is able to scavenge H2O2 in the micromolar range and that both PTU and MMI can impair thyroid H2O2 generation in addition to their potent
thyroperoxidase
inhibitory effects.
...
PMID:Thyroid Ca2+/NADPH-dependent H2O2 generation is partially inhibited by propylthiouracil and methimazole. 1275 90
Progress in biotechnology has provided useful tools for tracing proteins involved in thyroid hormone synthesis in vivo. Mono- or polyclonal antibodies are now available to detect on histological sections the Na(+)/I(-) symporter (NIS) at the basolateral pole of the cell, the putative iodide channel (pendrin) at the apical plasma membrane,
thyroperoxidase
(
TPO
), and members of the NADPH-oxidase family,
thyroid oxidase
1 and 2 (ThOXs), part of the H(2)O(2)-generating system. The aim of this study was to correlate thyroglobulin (Tg) iodination with the presence of these proteins. Tg, T(4)-containing Tg, NIS, pendrin,
TPO
, ThOXs, and TSH receptor (TSHr) were detected by immunohistochemistry on tissue sections of normal thyroids and various benign and malignant thyroid disorders. Tg was present in all cases. T(4)-containing Tg was found in the adenomas, except in Hurthle cell adenomas. It was never detected in carcinomas. NIS was reduced in all types of carcinomas, whereas it was detected in noncancerous tissues. Pendrin was not expressed in carcinomas, except in follicular carcinomas, where weak staining persisted.
TPO
expression was present in insular, follicular carcinomas and in follicular variants of papillary carcinomas, but in a reduced percentage of cells. It was below the level of detection in papillary carcinomas. The H(2)O(2)-generating system, ThOXs, was found in all carcinomas and was even increased in papillary carcinomas. Its staining was apical in normal thyroids, whereas it was cytoplasmic in carcinomas. The TSHr was expressed in all cases, but the intensity of the staining was decreased in insular carcinomas. In conclusion, our work shows that all types of carcinomas lose the capacity to synthesize T(4)-rich, iodinated Tg. In follicular carcinomas, this might be due to a defect in iodide transport at the basolateral pole of the cell. In papillary carcinomas, this defect seems to be coupled to an altered apical transport of iodide and probably
TPO
activity. The TSHr persists in virtually all cases.
...
PMID:Correlation between the loss of thyroglobulin iodination and the expression of thyroid-specific proteins involved in iodine metabolism in thyroid carcinomas. 1455 83
Mutations of the
thyroperoxidase
(
TPO
) gene have been reported as being the most severe and frequent abnormality in thyroid iodide organification defect (IOD) causing goitrous congenital hypothyroidism. The objective of this study was to screen and subsequently identify
TPO
gene mutations in patients with congenital hypothyroidism with evidence of total iodine organification defects (TIOD) or partial iodine organification defect (PIOD) as defined by the perchlorate discharge test. Seven goitrous patients with TIOD and seven patients with PIOD, from three and five unrelated families, respectively, were studied. We were able to detect different
TPO
genes mutations in patients with TIOD and PIOD. In TIOD families the results were as follows: (1) a homozygous GGCC insertion at exon 8, position 1277 (family 1); (2) compound heterozygosity with a GGCC insertion at exon 8 (1277) and a nucleotide substitution in exon 11 (2068G>C) (family 2); (3) compound heterozygosity with the mutation 2068G>C in exon 11 and a C insertion in exon 14 between positions 2505-2511 (family 3). In patients with PIOD we have detected: (1) only one heterozygous mutation in two families (4 and 5), in exons 11 and 10 (2084G>A and 1780C>A); (2) a compound heterozygous condition in one family (family 6), with mutations, respectively in exons 8 and 10 (1242G>T and 1780C>A); (3) only polymorphisms (family VII) and (4) a heterozygous mutation in the first base of the border exon/intron 9 +1G>T (family VIII). We did not detect inactivating mutations in exons 11, 16, and 21 of the
THOX2
gene where mutations have been previously described. We concluded that homozygous and compound heterozygous mutations found in TIOD characterized the autosomal recessive mode of inheritance and will translate a nonfunctional protein or a protein that may not reach the apical membrane. As for PIOD, the majority of the studied kindreds had only heterozygous mutations and/or polymorphisms. It is conceivable that these
TPO
gene sequence alterations may partially affect the functional state of the translated protein or affect its transport to the apical membrane.
...
PMID:Thyroperoxidase gene mutations in congenital goitrous hypothyroidism with total and partial iodide organification defect. 1475 Oct 36
A crucial step in thyroid hormone synthesis is the oxidative coupling of iodide to thyroglobulin that is catalyzed by
thyroperoxidase
. The limiting factor of this reaction is the supply of hydrogen peroxide. The generation of hydrogen peroxide has been linked to an enzymatic system located at the apical pole of thyrocytes. This enzymatic activity is assumed to be exerted by NADPH oxidases encoded by two recently cloned genes hThOX1 and hThOX2. Both genes are expressed at high levels in thyrocytes. In this study we report the chromosomal organization of these two genes and the functional characterization of their respective promoter regions. The two human
ThOX
genes are arranged in a head to head configuration and are separated by a 16 kb-long region. Human ThOX1 and ThOX2 genes span 75 kb and are composed of 35 and 34 exons, respectively. The promoters of both genes do not resemble each other and differ from promoters of other known thyroid-specific genes. No TATA box is present in either
ThOX
gene promoter. Functional studies confirm that both promoters display significant transcriptional activities after transfection in differentiated thyroid cell lines. However, in contrast to that of thyroglobulin or Na(+)/I(-) symporter gene promoter, hThOX promoter activity is not restricted to thyroid cells. Additionally, functional studies show that both hThOX promoters are not positively controlled by cAMP.
...
PMID:Structural and functional characterization of the two human ThOX/Duox genes and their 5'-flanking regions. 1506 44
The
dual oxidase
(Duox)2 flavoprotein is strongly expressed in the thyroid gland, where it plays a critical role in the synthesis of thyroid hormones by providing
thyroperoxidase
with H2O2. DUOX2 mRNA was recently detected by RT-PCR and in-situ hybridization experiments in other tissues, such as rat colon and rat and human epithelial cells from the salivary excretory ducts and rectal glands. We examined Duox2 expression at the protein level throughout the porcine digestive tract and in human colon. Western blot analysis identified Duox2 as the same two molecular species (M(r) 165 and 175 kDa) as detected in the thyroid. It was expressed in all the tissues tested, but the highest levels were found in the cecum and sigmoidal colon. Immunohistochemical studies showed that Duox2 protein is mainly present in these parts of the gut and located at the apical membrane of the enterocytes in the brush border, indicating that it is expressed only in highly differentiated cells. A Ca2+/NADPH-dependent H2O2-generating system was associated with Duox2 protein expression, which had the same biochemical characteristics as the
NADPH oxidase
in the thyroid. Indeed, treatment of the thyroid and cecum particulate fractions with phenylarsine oxide resulted in complete calcium desensitization of both enzymes. A marked increase in DUOX2 expression was also found during spontaneous differentiation of postconfluent Caco-2 cells. The discovery of Duox2 as a novel source of H2O2 in the digestive tract, particularly in the cecum and colon, makes it a new candidate mediator of physiopathological processes.
...
PMID:Dual oxidase2 is expressed all along the digestive tract. 1559 Nov 62
Thyroid hormone biosynthesis depends on iodide uptake and its incorporation into the acceptor protein thyroglobulin (Tg), a high molecular weight protein secreted into the follicular lumen. The sodium-iodide symporter (NIS) is responsible for thyroid iodide uptake, the first step in thyroid hormonogenesis. Iodide is subsequently transported through the cellular membrane by pendrin (PDS) and then incorporated into Tg. Iodide oxidation and organification occur mainly in the thyrocyte apical surface and these reactions are catalyzed by
thyroperoxidase
(
TPO
) in the presence of hydrogen peroxide. Thus, thyroid iodide organification depends on
TPO
activity, which is modulated by the concentration of substrates (thyroglobulin and iodide) and cofactor (hydrogen peroxide). Hydrogen peroxide generation is catalyzed by the
thyroid NADPH oxidase
(ThOx), which is present in the apical pole of thyrocytes, is stimulated by thyrotropin and is inhibited by iodide. Hydrogen peroxide generation is the limiting step in thyroid hormone biosynthesis under iodine sufficiency conditions.
...
PMID:[Enzymes involved in thyroid iodide organification]. 1561 14
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