EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The coupling of iodotyrosine residues of thyroglobulin (Tg) catalysed by thyroid peroxidase (TPO) has scarcely been studied with respect to the TPO of abnormal human thyroid glands. The present paper proposes a rapid and convenient assay method applicable for determining the coupling activity of a sample of less than 500 mg from each patient's thyroid. The main characteristics of the method are as follows: (i) mitochondrial/microsomal fractions of thyroid glands were treated with sodium cholate plus trypsin, and the supernatants obtained by ultracentrifugation were directly used for the assay of coupling and peroxidase activity of TPO; (ii) the formation of iodotyrosine residues catalysed by TPO was performed by using chemically iodinated Graves'-disease Tg containing 41 iodine atoms per molecule and with a high iodotyrosine and a low iodothyronine content; (iii) newly synthesized iodothyronine residues (thyroxine, 3,5,3'-tri-iodothyronine, and 3,3',5'-tri-iodothyronine) were analysed by h.p.l.c. after hydrolysis of Tg with proteinases and extraction of iodothyronines with ethyl acetate.
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PMID:Improved assay method for activity of thyroid peroxidase-catalysed coupling of iodotyrosine residues of thyroglobulin utilizing h.p.l.c. for analysis of iodothyronines. 281 64

We report the first isolation of purified coated vesicles (CVs) from thyroid gland. Bovine thyroid CVs were isolated by differential centrifugation, including a step through sucrose-D2O, using a modification of the method described by Nandi et al. (1) for bovine brain CVs. The CVs were characterized by electron microscopy, sedimentation properties, and SDS-PAGE of the protein components. Thyroglobulin (Tg) was found to be associated with the purified CVs. When the thyroid CVs were exposed to conditions known to remove the protein coat from brain CVs, such as low ionic strength at pH 8.5, most of the Tg dissociated from the vesicles along with the coat proteins. Moreover, the Tg remaining with the uncoated vesicles (UVs) was trypsin sensitive, and therefore judged to be associated with the external surface of the vesicle. Since ligand-receptor complexes are normally located within CVs and not on their outer surface, no evidence was found for Tg-receptor complexes within thyroid CVs. Thyroid slices were incubated in the presence of [35S] methionine with subsequent isolation of labeled CVs in order to study the incorporation of newly-synthesized proteins into these structures. At 0.5 and 2 hours of incubation, the 180K MW subunit of clathrin, as well as other proteins, but not Tg, had become labeled in the purified CVs. Extracellular 19S-[35S] thyroglobulin was isolated from the incubation medium, however, demonstrating release of newly-synthesized Tg (presumably into cut follicles). It is concluded that thyroid CVs do not seem to be involved in the secretion of newly-synthesized Tg from the rough endoplasmic reticulum into the follicular lumen. While a possible role of thyroid CVs in the reabsorption of small quantities Tg by micropinocytosis cannot be completely excluded, the present data do not support a primary role for thyroid CVs in either endocytosis or exocytosis of Tg.
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PMID:Coated vesicles from the thyroid gland: isolation, characterization, and a search for a possible role in thyroglobulin transport. 286 11

At room temperature, the UV fluorescence of trypsin, thyroglobulin, hemoglobin and albumin are observed; these molecules undergo two-photon absorption when they are excited with the radiation of a frequency-duplicated Q-switched Nd:YAG laser. It is shown that the fluorescence of these proteins comes from the tryptophan residues and that it has a red shift of about 20 nm relative to the one-photon fluorescence. We suggest that the weak emission from tyrosine arises from the forbidden two-photon transition. The influence of concentration on the fluorescence of hemoglobin and tryptophan is discussed. The two-photon absorption cross-sections are estimated.
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PMID:Fluorescence of proteins induced by two-photon absorption. 314 85

Thyroglobulin (mol. wt. 660 kDa) is the specific protein of the thyroid gland in which are synthesized and stored the thyroid hormones (thyroxine and 3,5,3'-triiodothyronine). It is formed of equal-sized subunits (330 kDa) containing each identical polypeptide chains to which are associated two types of oligosaccharide units representing 8 to 10% by weight of the protein. The studies reported in this paper describe the presence in thyroglobulin of discrete hormonogenic sites. After chemical (CNBr) and enzymatic (trypsin and protease V8 of S. aureus) treatments of the protein, four different hormone-containing peptide segments have been isolated, purified and sequenced. They correspond to the hormonogenic tyrosine-containing sites of the protein. One tyrosine is located at 4 amino acid residues from the N-terminal asparagine of the chain and is a major site for thyroxine synthesis. Another one which represents the triiodothyronine site is situated 2 amino acids before the C-terminal lysine. Finally, two other sites, one of low affinity and the other of high affinity for iodine and thyroxine formation, are equally located in the C-terminal part of the chain. The hormone-forming regions localized at the opposite far ends of the thyroglobulin chain(s) likely represent zones more accessible to iodination and with a conformation suited for the coupling of iodotyrosine into iodothyronine residues and ultimately protease attack to release the free hormones into the circulation. The presence of hormonogenic sites of different affinities for iodine allows thyroglobulin to modulate adaptively its hormonogenic capacity to external iodine supply. The molecular mechanism of this process is still unknown.
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PMID:[Thyroglobulin and the biosynthesis of thyroid hormones]. 316 Apr 35

MAb directed to the thyroid microsomal antigen have been developed. All bound to 101- and 107-kD bands in Western blot analysis using thyroid microsomal fraction as antigen. The MAb also bound to microsomal proteins immunoprecipitated by serum from patients having a high titer of anti-microsomal antibody but no antibodies to thyroglobulin or thyrotropin-stimulating hormone receptor. The pattern of binding was related to the amount of reducing agent. The 101- and 107-kD bands were increased by addition of dithiothreitol whereas, in its absence, numerous bands of higher molecular weight were present, suggesting a multimeric protein structure. Despite the inability to immunoprecipitate thyroid peroxidase (TPO) enzymatic activity, the MAb bound intensively in Western blot to denatured purified hog TPO and to denatured immunopurified human TPO. Trypsin digestion of the 101-107-kD antigen produced a doublet of 84-88 kD that was still immunoreactive with MAb. One of five polyclonal sera tested (with a microsomal antibody titer greater than 1/20,480 measured by the tanned red cell hemagglutination technique) also recognized the 84-88 kD trypsin fragments. Addition of V8 protease led to a disappearance of the 107-kD protein, but not the 101-kD protein, proving that this antigen is formed by two different polypeptides. The MAb bound strongly to thyroid epithelium, whereas binding to papillary carcinoma was absent or low and moderate for follicular and Hurthle cell carcinoma. This study indicates that the thyroid microsomal antigen and TPO are identical and are constituted of two different polypeptides. On SDS-PAGE the antigen appears as two contiguous bands which share common epitopes but are not identical, as proven by their size and difference in susceptibility to proteolytic digestion. The immunoreactivity of the molecule is highly dependent on a trypsin-sensitive site, which appears important in the recognition of the antigen by polyclonal sera and may have biological importance. The expression of microsomal antigenicity is variable among various thyroid carcinomas.
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PMID:Characterization of the thyroid microsomal antigen, and its relationship to thyroid peroxidase, using monoclonal antibodies. 328 Jun 2

Thyroglobulin from colloid as well as from membrane fractions became radiolabeled upon incubation of calf thyroid slices with [35S]sulfate. The identity of the sulfate-labeled molecule was established by immunoprecipitation, polyacrylamide gel electrophoresis, Bio-Gel A-5m filtration, and DEAE-cellulose chromatography. Size analysis by gel filtration of [35S]glycopeptides and hydrazine-released oligosaccharides indicated that the sulfate was primarily located in the complex (unit B) carbohydrate units of thyroglobulin. Moreover, although [35S]sulfate-labeled oligosaccharides were cleaved by N-glycanase to the same extent as those labeled with [3H]mannose, they were not released by endo-beta-N-acetylglucosaminidase under conditions that led to the complete removal of polymannose carbohydrate (unit A). The failure of 35S-labeled glycopeptides and oligosaccharides to bind to immobilized Concanavalin-A indicated that the sulfate residues in calf thyroglobulin are located in carbohydrate units with three or more branches. No evidence for the occurrence of tyrosine sulfate was found upon examination of Pronase digests of radiolabeled thyroglobulin, and chemical analyses excluded the presence of this amino acid down to a level of 0.5 residues/polypeptide subunit. Studies with density gradient-separated membrane fractions as well as with puromycin indicated that sulfate addition is a late event in thyroglobulin biosynthesis which occurs in the Golgi compartment. Furthermore, it was observed that the nondimerized thyroglobulin subunit was much less sulfate labeled than the mature molecule. The location of the sulfated carbohydrate in a terminal portion of the calf thyroglobulin peptide chain was suggested by the observation that the subunit [mol wt (Mr) = 330,000] can undergo a transformation, presumably mediated by an endogenous protease, to a sulfate-free component (Mr = approximately 270,000) with the appearance of a 35S-labeled 60,000 Mr fragment; the release of a single sulfate-labeled peptide (Mr = 60,000) by mild trypsin treatment was consistent with a sequestration of sulfate groups in the thyroglobulin molecule.
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PMID:Biosynthesis of sulfated asparagine-linked complex carbohydrate units of calf thyroglobulin. 338 87

Monoclonal autoantibodies obtained using the native porcine thyroglobulin (Tg) molecule for immunization were shown to react against a defined epitope of the Tg molecule. Its biochemical characterization was undertaken, using trypsin treatment of Tg, followed by gel filtration, affinity chromatography, sodium dodecyl sulfate-polyacrylamide gel electrophoresis and high pressure liquid chromatography analysis. Immunoreactivity tested by immunoblotting with appropriate monoclonal anti-Tg antibody allowed the detection of one peptide fragment of 5-10 kDa, after limited proteolysis with trypsin. We demonstrated that this peptide reacts exclusively with monoclonal anti-Tg antibodies which block in vitro proliferative T cell response; moreover, the 5-10-kDa tryptic fragments from porcine Tg were able to induce thyroiditis when injected into normal CBA mice, while porcine Tg depleted from these fragments was not able to do so.
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PMID:Experimental autoimmune thyroiditis induced by a 5-10-kDa tryptic fragment from porcine thyroglobulin. 359 9

The coupling of iodotyrosine (coupling reaction) is one of the least studied in the formation of thyroid hormone, particularly in human thyroid diseases. This paper describes a method of measuring iodotyrosine coupling catalyzed by human thyroid peroxidase (TPO) in vitro. There were two important requirements to demonstrate the coupling reaction: 1) thyroglobulin with a low thyroid hormone content, and 2) partially purified TPO. Thyroglobulin with low thyroid hormone content was obtained from Grave's and follicular adenoma tissues after propylthiouracil (PTU) therapy and L-T4 therapy, respectively. TPO was prepared from Graves' thyroid by solubilizing the 100,000 X g pellet of thyroid homogenate with sodium deoxycholate and trypsin, followed by Sephacryl S-300 gel filtration. Before the coupling reaction, thyroglobulin was iodinated with chloramine-T and potassium iodide, followed by dialysis. The coupling reaction was carried out by incubating newly iodinated thyroglobulin with TPO, diiodotyrosine, a coupling stimulator, and a H2O2-generating system (glucose and glucose oxidase) for 20 min at 37 C. After thyroglobulin was digested with Pronase, the thyroid hormone content of the thyroid digest was measured by RIA. Coupling activity was measured by the amount of newly formed T3 (nanograms of T3 per mg thyroglobulin). The time course of coupling reaction showed a progressive increase in coupling activity up to 30 min, and the reaction was temperature and pH dependent, with a pH optimum of 7.0. Coupling activity in the presence of H2O2 and TPO was 43 +/- 5.0 ng T3/mg thyroglobulin (mean +/- SD of triplicate samples), and addition of diiodotyrosine to the H2O2-TPO system caused a nearly 3-fold increase in coupling activity. This method has potential utilization for measurement of peroxidase coupling activity, since there was a linear relationship between the measured coupling activity and the amount of added TPO when the TPO concentration was over 3 micrograms/300 microliter. Methimazole (MMI) and PTU had similar potencies in inhibiting the TPO-catalyzed coupling reaction, whereas MMI was distinctly more potent than PTU as an inhibitor of TPO-mediated iodination in vitro. The different potencies of MMI in the two reactions suggest that different inhibitory mechanisms may be involved in iodination and coupling. The reducing agent, sodium metabisulfite, was also found to be a more potent inhibitor of the TPO-mediated coupling reaction than of the TPO-mediated iodination reaction. The method of iodotyrosine coupling described here may be useful to investigate the coupling step of thyroid hormone formation in human thyroid diseases.
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PMID:Coupling of iodotyrosine catalyzed by human thyroid peroxidase in vitro. 383 97

Purified human thyroglobulin (Tg) was enzymatically digested with trypsin. After completion of digestion, the tryptic digest was fractionated by gel filtration on a Biogel A 1.5 m column. Further separation and isolation of the major peak C was carried out on a Sephadex G-75 column. Nine fractions were separated and antigenic properties evaluated by a specific and sensitive radioimmunoassay using a rabbit antiserum to 19S Tg and three different antisera from patients with autoimmune thyroid diseases. The Tg fragments react with both hetero- and auto-antisera. The highest antigenic activity was found on larger fragments, but a fairly good activity was also observed on fragments (C6, C7) with lower molecular weight. Antigenic determinants of Tg differ in individual sera suggesting that different sets of determinants elicit the autoimmune process.
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PMID:Immunochemical properties of trypsin fragments of human thyroglobulin. 615 40

The effect of several factors on Escherichia coli K99-plasmid associated agglutination has been studied. The results obtained indicate that Escherichia coli 637 (K99+) mediated red blood cell agglutination is unspecific although the agglutination titres for several erythrocyte species are significantly different. The agglutination is highly stable (at least with sheep red blood cells) to changes in temperature (from 4 degrees C to 37 degrees C), to changes in pH (from 5 to 9) and to the presence or absence of several metallic cations. Treatment of sheep erythrocytes with certain proteolytic enzymes (papain and trypsin) results in a increment in their agglutinability. Also, the extraction of galactose after the removal of sialic acid residues from the oligosaccharides present on the erythrocyte membranes results in a great increment in their agglutinability. On the other hand, only thyroglobulin, mucin, fetuin, and the oligosaccharides extracted from the last two glycoproteins are able to inhibit K99-plasmid mediated sheep red blood cell agglutination.
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PMID:Study of several factors affecting the agglutinating activity of K99-positive Escherichia coli strains. 637 53

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