Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.23.5 (cathepsin D)
 4,130 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have recently demonstrated that the iv administration of acidic fibroblast growth factor (a-FGF) to rats for 6 days results in a marked increase in thyroid weight with colloid accumulation and flat, quiescent follicular cells. Whereas a-FGF administration consistently increases thyroid weight, there are only minor alterations in serum TSH and thyroid hormones, and no change in intrathyroidal metabolism of 125I metabolism. In the present work, we studied the effects of 1 or 6 daily injections of a-FGF (60 micrograms/kg BW) or vehicle on the mRNA levels for histone, c-fos, actin, type I 5' deiodinase (5'D-I), thyroid peroxidase, and thyroglobulin and cathepsin D in the thyroid, liver and bone. Rats were sacrificed 0.5, 2, 4, 8 and 24 h after the 1st or the 6th a-FGF injection and thyroid, liver, and calvarium were removed. The relative amounts of mRNAs were determined by slot blot analysis. There was a 43% increase in thyroid weight in rats treated with a-FGF for 6 days compared to vehicle-treated rats. We observed an increase in c-fos mRNA content in the thyroid gland 0.5 to 4 h after 1 or 6 injections of a-FGF. In contrast, treatment with a-FGF for 1 or 6 days did not affect histone mRNA content, a marker of proliferative activity or actin mRNA levels. Treatment with a-FGF caused a marked decrease in thyroid 5' D-I mRNA content in the thyroid. The decrease was present 2 h after the first injection and reached a nadir 8 h later.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acidic fibroblast growth factor modulates gene expression in the rat thyroid in vivo. 128 22

The release of T4 and T3 from the prohormone thyroglobulin (Tg) occurs in thyroid lysosomes. To examine the role of cathepsin-B, -D, and -L, the three major endopeptidases in this process, we incubated rabbit [125I]Tg, labeled in vivo, with lysosomal extracts from human thyroids. Iodopeptide formation was evaluated by polyacrylamide gel electrophoresis in sodium dodecyl sulfate after short term incubations (20-45 min), while iodoamino acid release was assessed by paper chromatography after long term incubations (8 and 24 h). Using pepstatin to inhibit cathepsin D, Z-Phe-Ala-CHN2 to inhibit both cathepsin B and L, and Z-Phe-Phe-CHN2 to selectively inhibit cathepsin L, we obtained the following results: 1) blocking of all three endopeptidases reduced both iodopeptide formation in short term experiments and iodoamino acid release in long term experiments by 80-90%; 2) iodopeptide formation was reduced by 85% with Z-Phe-Ala-CHN2, by 56% with Z-Phe-Phe-CHN2, and by 26% with pepstatin; 3) iodoamino acid release was reduced by 60-80% with Z-Phe-Ala-CHN2 and by 40-50% with either Z-Phe-Phe-CHN2 or pepstatin at 8 h, but by less than 20% at 24 h; pepstatin and Z-Phe-Phe-CHN2 together reduced iodoamino acid release by 80% and 60% at 8 and 24 h, respectively. Limited hydrolysis of Tg by lysosomal enzymes produced at least eight peptide fragments of less than 100,000 mol wt. Three of these, together representing 32% of the 125I released, resulted from cleavages in the C-terminal region of Tg corresponding to residues 2487, 2393, and 2390 of cDNA-derived human Tg. Several other peptides, together containing 38% of the 125I released, included the N-terminus of Tg. These C-terminal and N-terminal fragments contained three of Tg's four major hormonogenic sites, but none of the cleavage sites fell close to the hormone sites themselves. We conclude that 1) the formation of discrete iodopeptides precedes the release of iodothyronines and iodotyrosines from Tg; 2) the cysteine proteinases are more important than cathepsin D in this process; and 3) these endopeptidases selectively cleave Tg to favor the production of hormone-containing intermediates for subsequent processing by exopeptidases.
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PMID:Proteolytic processing of thyroglobulin by extracts of thyroid lysosomes. 190 99

The normal provision of thyroid hormones to the body requires their release from the prohormone, thyroglobulin (Tg). Previous work established the importance of cathepsins B, D, and L (formerly designated cysteine proteinase I) to this process but had not defined the points of proteolytic attack for each enzyme. In the present study we labeled rabbit Tg in vivo with sodium 125I and performed limited digestions with cathepsins B, D, and L, purified from human thyroids. The resultant peptide fragments were analyzed by amino-terminal sequencing and located within the Tg molecule by comparison with the cDNA-derived sequences from human Tg. We identified three cleavage points for cathepsin B, corresponding to P'1 residues 532, 795, and 2487; four cleavage points for cathepsin L, corresponding to P'1 residues 2389, 2452, 2490, and 2657; and four cleavage points for cathepsin D, corresponding to P'1 residues 551, 1835, 2468, and 2643. None of the cleavage points was near Tgs known hormonogenic sites, but these peptide fragments contained three of the four major hormonogenic sites in rabbit Tg, suggesting some preference for their early proteolytic processing. Cathespin B alone among the three endopeptidases had some exopeptidase activity toward Tg. The cleavage specificities for each of the endopeptidases resembled those described with other protein substrates. Thus, cathepsin D preferentially cleaved bonds between hydrophobic residues, and cathespin L cleaved bonds with hydrophobic residues at P2 and P3. Although cathepsin Bs specificity was less obvious, it produced a major cleavage between 2 leucine residues. The existence of three endopeptidases cleaving at different sites shows that Tg proteolysis is a complex process, suggests synergism among their enzyme activities, and provides a physiological mechanism for selective hormone release, including its regulation by TSH.
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PMID:Thyroglobulin processing by thyroidal proteases. Major sites of cleavage by cathepsins B, D, and L. 193 80

In addition to their general function in cellular homeostasis, thyroid lysosomes play an essential role in the biosynthesis of thyroid hormones by cleaving the macromolecular prohormone, thyroglobulin. In the present work, we have attempted to determine whether the enzyme composition of thyroid lysosomes differs from that of lysosomes from other tissues. Lysosomal enzymes, cathepsin D, beta-D-galactosidase, beta-D-glucosidase, alpha-D-mannosidase, alpha-L-fucosidase, hexosaminidase, and arylsulfatase A and B, were assayed in crude fractions from various pig tissues, heart, brain, liver, kidney, thyroid, adrenals, ovary, and spleen. It appeared that the specific activity of arylsulfatase A was at least 20 times higher in the thyroid than in most other tissues. Thyroid lysosomes purified by isopycnic centrifugation on Percoll gradients contained two major polypeptides with apparent molecular weights of 58,000 and 54,000 representing about 30% of the total protein. These polypeptides were glycosylated and were exclusively found in the intralysosomal soluble fraction obtained by osmotic pressure-dependent lysis. By fractionating intralysosomal soluble proteins by velocity sedimentation on sucrose gradients or gel permeation chromatography we identified a thyroid arylsulfatase A holoenzyme which corresponds to a 120,000 Mr species. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analyses of the gradient or column fractions showed that the 120-kDa protein peak with arylsulfatase A activity essentially contained the 58- and 54-kDa polypeptides in equivalent amounts. In conclusion, arylsulfatase A, a heterodimer of 120 kDa composed of two nonidentical subunits, is the major protein component of thyroid lysosomes. The superabundance of this protein in purified thyroid lysosomes is related to the very high specific activity of the enzyme in the thyroid as compared to other tissues.
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PMID:Evidence for the presence of a very high concentration of arylsulfatase A in the pig thyroid: identification of arylsulfatase A subunits as the two major glycoproteins in purified thyroid lysosomes. 256 93

Open thyroid follicles were prepared by mechanical disruption of pig thyroid fragments through a metal sieve. This procedure allowed preparation of thyroid-cell material depleted of colloid thyroglobulin. Open thyroid follicles were used to prepared a crude particulate fraction, which contained lysosomes, mitochondria and endoplasmic reticulum. These organelles were subfractionated by isopycnic centrifugation on iso-osmotic Percoll gradients. A lysosomal peak was identified by its content of acid hydrolases: acid phosphatase, cathepsin D, beta-galactosidase and beta-glucuronidase. The lysosomal peak was well separated from mitochondria and endoplasmic reticulum. The lysosomal peak, from which Percoll was removed by centrifugation, was taken as the purified lysosome fraction (L). Lysosomes of fraction L were purified 45-55-fold (as compared with the homogenate) and contained about 5% of the total thyroid acid hydrolase activities. Electron microscopy showed that fraction L was composed of an approx. 90% pure population of lysosomes, with an average diameter of 220 nm. Acid hydrolase activities were almost completely (80-90%) released by an osmotic-pressure-dependent lysis. Thyroglobulin was identified by polyacrylamide-gel electrophoresis as a soluble component of the lysosome fraction. In conclusion, a 50-fold purification of pig thyroid lysosomes was achieved by using a new tissue-disruption procedure and isopycnic centrifugation on Percoll gradient. The presence of thyroglobulin indicates that the lysosome population is probably composed of primary and secondary lysosomes. Isolated thyroid lysosomes should serve as an interesting model to study the reactions whereby thyroid hormones are generated from thyroglobulin and released into the thyroid cells.
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PMID:Isolation of pig thyroid lysosomes. Biochemical and morphological characterization. 300 8

Purified hog thyroid lysosomes, prepared by a procedure previously developed in this laboratory, were used to study lysosomal digestion of [131I]thyroglobulin [131I]Tg). The lysosomal proteases were solubilized with 0.1% Triton X-100. Rates of proteolytic digestion, measured by the release of ethanol-ammonium acetate-extractable 131I, were greatly stimulated by thiol reagents. The pH optimum was also affected by the presence of thiols. In the absence of a thiol reagent, a broad pH optimum was observed, ranging from 3.5-4.5. However, in the presence of 1 mM mercaptoethanol, the maximum rate of digestion occurred at pH 5.0, very close to reported values for the internal pH of lysosomes. Pepstatin, an inhibitor of cathepsin D, markedly inhibited lysosomal digestion of [131I]Tg at concentrations as low as 0.01 micrograms/ml. Its inhibitory effect was greater at pH 3.5 (pH optimum of cathepsin D) than at pH 5.0. Leupeptin, an inhibitor of thiol proteases, was not as potent as pepstatin, but it was significantly inhibitory at a concentration of 1 microgram/ml. In contrast to pepstatin, leupeptin displayed a greater inhibitory effect at pH 5.0 than at pH 3.5. The pH optimum of hog thiol proteases has been reported to range from 5.5-6.5. The effects of the two inhibitors were additive at pH 5.0. We conclude from these results that both cathepsin D and thiol proteases play a role in lysosomal digestion of Tg. Cathepsin D appears to be quantitatively more important than thiol protease in the initial phase of the digestion. The stimulatory effect of thiols on lysosomal digestion of [131I]Tg probably involves two separate effects: 1) stimulation of thiol proteases, and 2) reduction of S-S bonds in Tg, making the protein more susceptible to attack by proteolytic enzymes. Poorly iodinated [131I]Tg was more rapidly hydrolyzed than well iodinated [131I]Tg, based on the release of ethanol-ammonium acetate-extractable 131I. However, there was little or no difference in the rate of total peptide bond cleavage between poorly iodinated and well iodinated Tg. These results suggest that the first sites of iodination of Tg are preferentially attacked by lysosomal proteases. Long term (24-h) digestion of [131I]Tg with solubilized thyroid lysosomes at pH 5.0 in the presence of thiol compounds was just as effective as digestion with pronase at pH 8.0 in liberating free 131I-labeled iodothyronines and 131I-labeled iodotyrosines. Thus, thyroid lysosomes contain the full complement of proteases and peptidases required for cleaving free iodoamino acids from Tg.
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PMID:Lysosomal digestion of thyroglobulin: role of cathepsin D and thiol proteases. 389 65

The possibility that the iodine supply modulates thyroid lysosomal activity was investigated in rats receiving chronic or acute increasing doses of iodide. The lysosomal activity or the various experimental groups was determined by measuring the activity of beta-glycerophosphatase and cathepsin D both in thyroid homogenates and in semipurified thyroid lysosomal preparations, and the degradation of labelled thyroglobulin by the various lysosomal fractions. In the chronic experiments beta-glycerophosphatase and cathepsin D activities increased with the iodide supply of the animals up to 100 micrograms I/rat and decreased slightly thereafter. In the acute experiments the activity of these enzymes increased up to 1000 micrograms I/rat and decreased above 5000 micrograms I/rat. The proteolytic activity of lysosomal fractions from the various experimental groups towards thyroglobulin decreased slightly with increased iodide supply both in chronic and acute experiments. The results suggest that thyroid lysosomal activity may participate in the autoregulation of thyroid secretion by inducing synthesis of new enzymes and modulating thyroglobulin degradation.
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PMID:The effect of varying iodine content on the proteolytic activity of rat thyroid lysosomes. 627 17

Rabbit thyroids contain cathepsin D (CD) and several thiol endopeptidases including cathepsin B and three newly described enzymes (cathepsins 180K, 110K, and 45K). The present paper assesses the relative physiological importance of these enzymes in thyroglobulin degradation in rabbits. Thyroidal thiol endopeptidase [thiol thyroglobulin hydrolase (thiol TgH)] activity increased in the absence of changes in CD activity in animals treated with 10 U bovine TSH. Peak enzyme activity occurred 24 h after injection of hormone. After 20 U bovine TSH, thiol endopeptidase activity increased by approximately 100%, whereas CD increased by 50%. The increase in thiol enzyme activity was attributed both to cathepsin B and to the other thiol endopeptidases. The lysosomal acid hydrolases acid phosphatase and dipeptidyl peptidase II were unaffected by TSH at either dose level. Thiol TgH activity, but not CD activity, was decreased in thyroids of rabbits treated with T4 [5 micrograms/(100 g BW X day)] for 1 week. All thyroidal acid hydrolases examined were suppressed in animals receiving T4 for 3 weeks. Thiol TgH activity was localized primarily to a lysosome-enriched fraction of thyroid homogenates. Our results suggest that the thiol proteases probably are the most important endopeptidases in thyroglobulin hydrolysis in vivo and that their activities are influenced by TSH.
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PMID:Stimulation of thyroidal thiol endopeptidases by thyrotropin. 636 Jun 67

Previous studies have demonstrated that trypan blue directly inhibits thyroid secretion when the dye is administered in vitro or in vivo. To further study the mechanisms of inhibition, cathepsin D (EC 3.4.23.5) (thyroidal acid proteinase) has been purified from bovine thyroid. Trypan blue inhibited the proteolysis of both 125I-labeled thyroglobulin and 125I-labeled hemoglobin in both crude lysosomal enzyme preparation and purified endopeptidase and the inhibition was competitive. Inhibition was also observed when the dye was allowed to prebind to either purified enzyme or purified substrate. Inhibition of cathepsin D is shown to account for part of the inhibition of thyroid secretion.
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PMID:Effects of trypan blue on thyroid secretion. Inhibition of purified cathepsin D from bovine thyroid. 702 45

We have obtained evidence of thiol endopeptidases in the thyroid which are active in thyroglobulin degradation in vitro. Four pepstatin-insensitive endopeptidase fractions were distinguished in extracts of rabbit thyroids by gel filtration on Bio-Gel A-0.5m. An enzyme from one fraction was obtained in highly purified form and was found to be identical to cathepsin B described in other tissues. Endopeptidases in the three remaining fractions were designated as cathepsins 180K, 110K, and 45K, respectively, on the basis of their estimated molecular size. These were partially purified by either organomercurial affinity chromatography or DEAE-cellulose chromatography. They are identified as thiol endopeptidases on the basis of their sensitivity to inhibition by both leupeptin and the thiol-blocking agent iodoacetic acid and by their activation with the reducing agent glutathione. Each is distinguished from cathepsin B on the basis of molecular size and limited ability to hydrolyze benzoylarginine-2-naphthylamide. The action of the thiol endopeptidases on [125I]thyroglobulin was analyzed by polyacrylamide gel electrophoresis in sodium dodecyl sulfate or in sodium dodecyl sulfate and urea. In each instance, the initial peptide fragments were approximately 40-45K and 30K, with iodothyronine contents similar to or less than that of intact thyroglobulin. Later products of digestion than that of intact thyroglobulin. Later products of digestion included first, 20K peptides, which showed a low iodothyronine content, and finally, peptides of approximately 10K, which showed a 1.5-fold enrichment of T4 and T3 over that of intact thyroglobulin. Each of the thiol endopeptidases had a synergistic effect when incubated with cathepsin D and [125I]thyroglobulin. Among the products of such incubations were small iodopeptides, which were iodothyronine-enriched, and free T4, itself. The results show that thiol endopeptidases are present in the thyroid gland and are collectively as important as cathepsin D in the hydrolysis of thyroglobulin in vitro. The action of these enzymes must be considered along with that of cathepsin D in understanding thyroglobulin hydrolysis in vivo.
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PMID:Thyroglobulin degradation by thyroidal proteases: action of thiol endopeptidases in vitro. 704 63


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