Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.23.5 (cathepsin D)
4,130 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transport of newly synthesized cathepsin D in fibroblasts at 16-28 degrees C was compared to that at 37 degrees C. At 37 degrees C newly synthesized cathepsin D passes the trans Golgi within 30-60 min, becomes segregated from the secretory route into prelysosomal organelles within 1-2 h and processed to mature forms in dense lysosomes within 1.5-3 h after synthesis. The small fraction of cathepsin D that escapes transport into lysosomes is secreted within less than 2 h. At 16-28 degrees C the transport of cathepsin D to lysosomes is inhibited in a temperature-dependent manner. At 16-28 degrees C cathepsin D precursors are slowly transported to the trans Golgi. The cathepsin D precursors accumulate at a site that is in continuity with the secretory pathway and located within or distal of the trans Golgi and proximal to the site where cathepsin D precursors leave the secretory pathway as complexes with mannose 6-phosphate receptors. The arrest at this site is not complete. The receptor-dependent segregation of the cathepsin D precursors released from the block is impaired at less than or equal to 26 degrees C. The inhibition of segregation results in an increased, albeit retarded secretion of cathepsin D. The fraction of cathepsin D precursors that is segregated from the secretory pathway encounters a further low temperature block in prelysosomal organelles. There cathepsin D precursors are proteolytically processed to an intermediate form, which accumulates transiently.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Low temperature blocks transport and sorting of cathepsin D in fibroblasts. 320 52

Previously we identified an acid protease activity which was located in the endosomes of rabbit alveolar macrophages (Diment, S., and Stahl, P.D. (1985) J. Biol. Chem. 260, 15311-15317). In this study, the endosomal protease is identified as cathepsin D by immunoprecipitation with polyclonal antibodies raised against rabbit cathepsin D and by NH2-terminal sequence. In order to elucidate the mechanism for targeting of cathepsin D to endosomes, we first examined the membrane association of cathepsin D with light (rho = 1.05 g/ml) and heavy density (rho = 1.1 g/ml) vesicles from Percoll density gradients. After sequential washes, 8.4 and 21.9% of cathepsin D activity remained associated with heavy and light density vesicles, respectively. This membrane-associated cathepsin D could not be solubilized in either buffer at pH 5.0 containing mannose 6-phosphate and EDTA or in buffer at pH 10.6. Solubilization required the detergent Triton X-100. To determine whether membrane-associated cathepsin D was found in endosomes, the enzyme was radioiodinated within endosomes and lysosomes with internalized lactoperoxidase. The membrane-associated form was detected in endosomes, but much less in lysosomes. Biosynthetic studies combined with the same extraction procedure revealed that macrophage cathepsin D is first synthesized as an inactive membrane-associated precursor. The precursor is processed to an active, membrane-associated form and then to the active soluble form found in lysosomes. Our studies provide evidence that 1) cathepsin D is in endosomes of macrophages; 2) cathepsin D is transported to endosomes as a membrane-associated form; and 3) the membrane-associated form is a biosynthetic precursor for the soluble form found in endosomes and lysosomes.
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PMID:Cathepsin D is membrane-associated in macrophage endosomes. 336 Aug 12

We have studied the posttranslational modifications of the 52-kD protein, an estrogen-regulated autocrine mitogen secreted by several human breast cancer cells in culture (Westley, B., and H. Rochefort, 1980, Cell, 20:353-362). The secreted 52-kD protein was found to be phosphorylated mostly (94%) on high-mannose N-linked oligosaccharide chains, and mannose-6-phosphate signals were identified. The phosphate signal was totally removed by alkaline phosphatase hydrolysis. The secreted 52-kD protein was partly taken up by MCF7 cells via mannose-6-phosphate receptors and processed into 48- and 34-kD protein moieties as with lysosomal hydrolases. By electron microscopy, immunoperoxidase staining revealed most of the reactive proteins in lysosomes. After complete purification by immunoaffinity chromatography, we identified both the secreted 52-kD protein and its processed cellular forms as aspartic and acidic proteinases specifically inhibited by pepstatin. The 52-kD protease is secreted in breast cancer cells under its inactive proenzyme form, which can be autoactivated at acidic pH with a slight decrease of molecular mass. The enzyme of breast cancer cells, when compared with cathepsin D(s) of normal tissue, was found to be similar in molecular weight, enzymatic activities (inhibitors, substrates, specific activities), and immunoreactivity. However, the 52-kD protein and its cellular processed forms of breast cancer cells were totally sensitive to endo-beta-N-acetylglucosaminidase H (Endo H), whereas several cellular cathepsin D(s) of normal tissue were partially Endo H-resistant. This difference, in addition to others concerning tissue distribution, mitogenic activity and hormonal regulation, strongly suggests that the 52-kD cathepsin D-like enzyme of breast cancer cells is different from previously described cathepsin D(s). The 52-kD estrogen-induced lysosomal proteinase may have important functions in facilitating the mammary cancer cells to proliferate, migrate, and metastasize.
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PMID:Phosphorylation, glycosylation, and proteolytic activity of the 52-kD estrogen-induced protein secreted by MCF7 cells. 354 22

We have obtained expression of a cDNA clone for human cathepsin D in Xenopus laevis oocytes. Biosynthetic studies with [35S]methionine labeling demonstrated that most of the cathepsin D remained intracellular and underwent proteolytic cleavage, converting a precursor of Mr 47,000 D to a mature form of Mr 39,000 D with processing intermediates of Mr 43,000-41,000 D. greater than 90% of the cathepsin D synthesized by oocytes bound to a mannose 6-phosphate (Man-6-P) receptor affinity column, indicating the presence of phosphomannosyl residues. An analysis of [2-3H]mannose-labeled oligosaccharides directly demonstrated phosphomannosyl residues on cathepsin D. Sucrose-gradient fractionation, performed to define the membranous compartments that cathepsin D traversed during its biosynthesis, demonstrated that cathepsin D is targeted to a subpopulation of yolk platelets, the oocyte equivalent of a lysosome. Xenopus oocytes were able to endocytose lysosomal enzymes from the medium and this uptake was inhibited by Man-6-P, thus demonstrating the presence of Man-6-P receptors in these cells. Therefore, the entire Man-6-P dependent pathway for targeting of lysosomal enzymes is present in the oocytes. Xenopus oocytes should be a useful system for examining signals responsible for the specific targeting of lysosomal enzymes to lysosomes.
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PMID:Expression of human cathepsin D in Xenopus oocytes: phosphorylation and intracellular targeting. 368 Mar 68

Two-dimensional electrophoretograms of extracts of [3H]glucosamine-labeled human renal cancer cells demonstrated a series of components (Mr 48,000 and 30,000) that are only poorly expressed in similarly labeled normal kidney epithelial cell cultures [S. Ogata, R. Ueda, and K. O. Lloyd (1981) Proc. Natl. Acad Sci. USA 78, 770-774]. These characteristics are also exhibited by [3H]Man-labeled samples and by concanavalin A-binding glycoproteins from [35S]Met-labeled cells. It is now shown that these species are the precursor chain (Mr 48,000) and native heavy chain (Mr 30,000) forms of the lysosomal enzyme, cathepsin D. These results were obtained by precipitation with a specific anti-cathepsin D serum and by binding of the components to pepstatin-Sepharose. Cathepsin D heavy chain is heterogeneous, having three major species with pI's of 5.7, 5.3, and 4.9; all forms are glycosylated with high mannose-type chains [approximate size: Man5(GlcNAc)2] and are partially phosphorylated. Despite these indications of dissimilarities in cathepsin D levels, the actual levels of total acid protease activity were not significantly higher in renal cancer cells than in normal kidney epithelial cells.
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PMID:Characteristic [3H]glucosamine-labeled glycoproteins in two-dimensional electrophoretograms of human renal cancer cells: identification as cathepsin D. 388 15

Rabbit alveolar macrophages rapidly internalize and degrade mannosylated bovine serum albumin (125I-mannose-BSA). Trichloroacetic acid-soluble degradation products appear in the cells as early as 6 min after uptake at 37 degrees C, and in the extracellular medium after 10 min. Incubation of endocytic vesicles containing this ligand in isotonic buffers at pH 7.4 + ATP resulted in intravesicular proteolysis, which was inhibited by monensin, nigericin, or ammonium chloride. At pH 5.0, degradation proceeded rapidly and was abolished by lysis of the vesicles with 0.1% Triton X-100. Readdition of lysosomes to the incubation mixture did not increase the rate of prelysosomal degradation. Proteolysis of 125I-mannose-BSA was optimal at pH 4.5, and inhibited by low concentrations of the cathepsin D inhibitor pepstatin A. After subcellular fractionation of the macrophages on Percoll gradients, 125I-mannose-BSA sedimented with prelysosomal vesicles and was not transported to secondary lysosomes. Addition of pepstatin A to extracellular medium during internalization of prebound 125I-mannose-BSA partially inhibited degradation of ligand, and resulted in transfer of undegraded 125I-mannose-BSA to lysosomes after 20 min. Using 125I-bovine serum albumin as a substrate for the protease in the presence of 0.1% Triton X-100, we have shown that as much as 36% of the total pepstatin A-sensitive activity sediments with nonlysosomal membranes. After intraendosomal iodination using lactoperoxidase, a labeled protease was isolated by affinity chromatography on pepstatin-agarose. The labeled protease, which had a subunit size of 46 kDa, was detected in endocytic vesicles after 5 min of internalization. These results suggest that a cathepsin D-like protease is responsible for the degradation of 125I-mannose-BSA in macrophages, and that this ligand is degraded in a prelysosomal vesicle.
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PMID:Macrophage endosomes contain proteases which degrade endocytosed protein ligands. 390 94

Coated vesicles were isolated from metabolically labeled human fibroblasts with the aid of affinity-purified antibodies against human brain clathrin and Staphylococcus aureus cells. The material adsorbed to the S. aureus cells was enriched in clathrin. When the S. aureus cells bearing the immunoadsorbed material were treated with 0.5% saponin, extracts containing the precursor form of cathepsin D were obtained. The extraction of the precursor was promoted in the presence of mannose 6-phosphate. Material adsorbed to S. aureus cells coated with control immunoglobulins was nearly free of clathrin and contained a small amount of the cathepsin D precursor (less than 20% of that adsorbed with anti-clathrin antibodies). The extraction of this cathepsin D precursor was independent of mannose 6-phosphate and was complete after a brief exposure to saponin. The amount of cathepsin D precursor in coated membranes varied between 0.4 and 2.5% of total precursor. Analysis of pulse chase-labeled fibroblasts revealed that cathepsin D was only transiently associated with coated membranes. The mean residence time of cathepsin D precursor in coated membranes was estimated to be 2 min. These observations support the view that coated membranes participate in the transfer of precursor forms of endogenous lysosomal enzymes to lysosomes.
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PMID:Cathepsin D precursors in clathrin-coated organelles from human fibroblasts. 392 34

A new aspartic proteinase was isolated from porcine intestine mucosa by affinity chromatography on pepstatin-Sepharose 4B and gel filtration on Sephadex G-100. The enzyme was purified 1600-fold and appeared homogeneous upon polyacrylamide gel electrophoresis. The proteinase has a Mr 60 000 +/- 4000 Da. During sodium dodecyl sulfate polyacrylamide gel electrophoresis the enzyme produced a single protein band (Mr 30 000 +/- 3000 Da). Isoelectric focusing revealed that the enzyme has several multiple forms (pI 6.9, 7.5, 8,0). The enzyme is a glycoprotein containing 5.9% of carbohydrates; the mannose to galactose ratio is 1:3. The amino acid composition of the enzyme was studied. The proteinase splits an oxidized insulin B-chain and synthetic substrates. The pH optimum is 3.2. The enzyme is immunologically identical to porcine spleen cathepsin D.
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PMID:[Proteinases of small intestine enterocytes of swine. Purification and properties of aspartyl proteinase similar to cathepsin D]. 393 2

Multiple biosynthetic forms of glucocerebrosidase were immunoprecipitated after synthesis in vitro using cell-free translation or in vivo using pulse-chase conditions in porcine kidney cells or human fibroblasts. The initial product in vitro was a 52-kDa polypeptide. When canine pancreatic microsomes were present during translation, the nascent polypeptide crossed the microsomal membrane and increased its mass to 60 kDa. Treatment of the 60-kDa polypeptide with endoglycosidase H to remove high mannose carbohydrate yielded a 51-kDa polypeptide. Thus, the membrane-translocated molecule was apparently a high mannose glycoprotein from which a signal peptide had been cleaved, as observed for the lysosomal protease cathepsin D (Erickson, A. H., and Blobel, G. (1979) J. Biol. Chem. 254, 11771-11774). Treatment of pancreatic microsomes or microsomes from porcine kidney cells with protease did not decrease the size of the polypeptide, which shows that this form is not a transmembrane protein bearing a cytoplasmic domain susceptible to digestion. The in vitro product synthesized in the presence of microsomal membranes was indistinguishable from the in vivo product synthesized during pulse-labeling of cultured porcine kidney cells. Following a 2-h chase period, the 60-kDa product was converted to a 59-kDa polypeptide. The major form of glucocerebrosidase detected after a 24-h chase period was a 56-kDa polypeptide, which in turn was converted to a 55-kDa polypeptide by 72 h. The same forms were precipitated from human fibroblasts but the rate of processing was accelerated in this cell type. Limited treatment of the 60-kDa form of glucocerebrosidase with endoglycosidase H suggested that high mannose carbohydrate is added to at least four sites on the polypeptide chain. By 24 h after synthesis, conversion to endoglycosidase H-resistant complex carbohydrate had occurred. Thus, both polypeptide and carbohydrate processing steps are involved in the biosynthesis of glucocerebrosidase.
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PMID:Biosynthesis of the lysosomal enzyme glucocerebrosidase. 393 53

Cathepsin D was purified from the lactating rabbit mammary gland by a rapid procedure, which included fractionation with (NH4)2SO4, acid precipitation, double affinity chromatography on pepstatin-Sepharose 4B and gel filtration on Sephadex G-100, resulting in approximately 360-fold purification of the enzyme over the homogenate and approximately 16% recovery. After isoelectric focusing, the enzyme dissociated into four (pI 5.8, 6.3, 6.5 and 7.2) multiple forms, but appeared homogeneous on polyacrylamide gel electrophoresis. Cathepsin D has a Mr of 45 kDa as determined by Sephadex G-100 column chromatography. On sodium dodecylsulfate/polyacrylamide gel electrophoresis the enzyme gave a single protein band, corresponding to Mr of 45 kDa. The amino acid composition of the enzyme is similar to that of cathepsins D from other tissues. A single N-terminal amino acid was glycine. Cathepsin D contains 6.4% carbohydrates consisting of mannose, galactose, fucose and glucosamine at a ratio of 3:9:2:2. Cathepsin D is inhibited by pepstatin with Ki of 2.5 X 10(-9) M and irreversibly by N-diazoacetyl-N'-2.4-dinitrophenyl-ethylene diamine. The enzyme hydrolyzes bovine hemoglobin with the maximal activity at pH 3.0 with Km = 10(-5) M and HLeu-Ser-Phe(NO2)-Nle-Ala-Leu-OMe with Km = 4 X 10(-5) M and Rcat = 0.95 s-1. The major cleavage sites were Leu15-Tyr16, Phe24-Phe25 and Phe25-Tyr26 during hydrolysis of the oxidized insulin B-chain by cathepsin D.
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PMID:[Purification and properties of cathepsin D from the mammary glands of lactating rabbits]. 400 22


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