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)

Thyroid peroxidase (TPO) was purified from human thyroid tissue, obtained at surgery from patients with Graves' disease, by a procedure similar to one that we had previously used for the purification of porcine TPO. The membrane-bound enzyme was solubilized by treatment of the thyroid particulate fraction with trypsin plus detergent. After precipitation with ammonium sulfate, the enzyme was purified by a series of column treatments, including ion-exchange chromatography on DEAE-cellulose, gel filtration through Bio-Gel P-100, and hydroxylapatite chromatography. Although a high degree of purification was achieved, the finally isolated product was considerably more heterogeneous than the TPO obtained from porcine thyroids. Several pools of active enzyme differing in values for A412/A280 and in specific activity were collected. Gel electrophoresis was performed under native, denaturing [sodium dodecyl sulfate (SDS)] and denaturing plus reducing conditions. Native gel electrophoresis indicated that the active enzyme (93 kDa) was heavily contaminated with an inactive 60-kDa fragment, which we were unable to remove by HPLC. The inactive fragment was highly antigenic when tested on immunoblots with an antibody to TPO. The presence of the inactive fragment greatly reduced values for A412/A280 in the finally purified human TPO. Two of the pools, with A412/A280 values of 0.159 and 0.273, were used for further testing. Catalytic activity was very similar in these two pools when measured on the basis of heme content by several different assays. Moreover, the specific activities of both, based on heme content, were very similar to those observed with a porcine TPO preparation with A412/A280 = 0.48. These findings indicate that the inactive 60-kDa fragment most likely did not contain heme. On SDS-polyacrylamide gel electrophoresis under reducing conditions, the 60-kDa fragment completely disappeared and was replaced by a 36- and a 24-kDa component. Amino terminal sequence information obtained on these components indicated that the 24-kDa component represents the amino terminal portion of the active 93-kDa fragment, whereas the 36-kDa fragment represents the carboxyl terminal portion. A model is proposed suggesting that the 60-kDa fragment was generated by trypsin cleavage of native TPO at two internal sites within a disulfide loop (res approximately 300 and res 564) and at one further internal site (res 280). In addition, trypsin cleavage is proposed at sites near the amino and carboxyl ends common to both the active 93-kDa and the inactive 60-kDa fragments.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Purification and characterization of a large, tryptic fragment of human thyroid peroxidase with high catalytic activity. 232 90

Thyroid peroxidase was isolated from porcine thyroids by two methods. Limited trypsin proteolysis was employed to obtain a cleaved enzyme, and affinity chromatography was used to isolate intact thyroid peroxidase. Enzyme isolated by both methods was used in the examination of the heme site of native thyroid peroxidase and its complexes by EPR spectroscopy. Intact thyroid peroxidase showed a homogeneous high-spin EPR signal with axial symmetry, in contrast to the rhombic EPR signal of native lactoperoxidase. Reaction of cyanide or azide ion with native thyroid peroxidase resulted in the loss of the axial EPR signal within several hours. The EPR spectroscopy of the nitrosyl adduct of ferrous thyroid peroxidase exhibited a three-line hyperfine splitting pattern and indicated that the heme-ligand structure of thyroid peroxidase is significantly different from that of lactoperoxidase.
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PMID:Electron paramagnetic resonance spectroscopy of thyroid peroxidase. 283 83

The orientation of thyroid peroxidase in hog thyroid microsomes was studied by trypsin treatment, gel filtration, binding to Concanavalin A Sepharose and iodination of thyroglobulin. Trypsin treatment of microsomes did not solubilize the thyroid peroxidase activity completely but solubilized the NADPH-cytochrome c reductase activity almost completely. The apparent molecular size of thyroid peroxidase was not altered by trypsin treatment of microsomes. It was, however, decreased by the same treatment of deoxycholate-treated microsomes. On the other hand, the apparent molecular size of NADPH-cytochrome c reductase was reduced by trypsin without prior deoxycholate treatment. Thyroid peroxidase of microsomes did not bind to Concanavalin A Sepharose. Thyroglobulin added exogenously was not iodinated by microsomes, but endogenous thyroglobulin, which had been associated with microsomes, was iodinated. Similar results were obtained with rough microsomal membranes prepared from crude microsomes by sucrose density gradient centrifugation. These results suggest that thyroid peroxidase is oriented toward the luminal side of the microsomal vesicles.
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PMID:Orientation of thyroid peroxidase in hog thyroid microsomes. 661 7

Fifty serum samples from dogs with clinical signs of hypothyroidism and autoantibodies (AA) to thyroglobulin (Tg), thyroxine, or triiodothyronine were screened for AA to thyroid peroxidase (TPO). Thyroid peroxidase is the antigen against which microsomal AA are formed in human beings with lymphocytic thyroiditis. The TPO was isolated from canine thyroid tissue, using a modification of the procedure for purifying porcine TPO. The enzyme was solubilized from the membrane, using a deoxycholate-trypsin solution, followed by ammonium sulfate precipitation and diethylaminoethyl Sephadex chromatography. Activity of TPO was determined, using an iodide oxidation assay and a guaiacol assay. A monoclonal antibody to canine Tg, coupled to an immunoaffinity column, was used to eliminate the contaminating Tg from the TPO preparation. Using the TPO preparation as an antigen, an ELISA was performed on 10 serum samples and immunoblot assays were performed on 50 canine sera. Autoantibodies to TPO were not found in any of the sera. Assays also were performed, using purified porcine and human TPO and evidence of cross-reactivity with canine TPO was not identified. The absence of AA to TPO in dogs suggests a different pathogenesis for autoimmune thyroid disease in dogs than that hypothesized for lymphocytic thyroiditis in human beings.
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PMID:Isolation of thyroid peroxidase and lack of autoantibodies to the enzyme in dogs with autoimmune thyroid disease. 769 46