EC:3.4.23.5 - FACTA Search

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)

In the human carcinoma cell line HEp-2, endosomes are multivesicular bodies (MVBs) which gradually mature and eventually fuse with other mature endosomes and/or with preexisting lysosomes. Selective inhibition of the vacuolar H(+)-ATPase with bafilomycin A1 (Baf) did not influence endocytic uptake and recycling of the protein toxin ricin. Moreover, quantification of immunogold labeling on ultracryosections revealed that the frequency by which MVBs containing internalized cationized gold (Cat.Au) also labeled for the cation-independent mannose-phosphate receptor (MPR) was the same with and without Baf, suggesting that formation and maturation of MVBs were unchanged in the presence of Baf. However, degradation of ricin was strongly reduced by bafilomycin, and this reduction was not only due to increased pH in lysosomes. Thus, quantitative lmmunogold labeling showed that the Baf-induced alkalinization reduced the transfer of internalized Cat.Au to lysosomes, as defined by their content of human lysosome-associated membrane protein 1 (h-lamp-1) and cathepsin D. Accordingly, although low vacuolar pH does not seem to be required for transport to MPR-containing endosomes, it seems to be important for a late fusion step along the endocytic pathway.
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PMID:Inhibition of the vacuolar H(+)-ATPase with bafilomycin reduces delivery of internalized molecules from mature multivesicular endosomes to lysosomes in HEp-2 cells. 874 Dec 16

Cathepsin D carries a mannose 6-phosphate sorting signal which is recognized by a specific mannose 6-phosphate receptor, presumably at the site of the trans Golgi network, which segregates cathepsin D from the secretory proteins, and results in targeting of the enzyme to the acidic prelysosomal compartments and lysosomes in mammalian cells. Recent evidence implies that another sorting signal resides within the polypeptide backbone of the precursor cathepsin D. To evaluate the role of the propeptide region of cathepsin D in mannose 6-phosphate receptor-independent targeting to lysosomes, we prepared a deletion mutant of rat cathepsin D lacking the propeptide portion and analyzed its intracellular targeting mechanism after transfection of the mutant cDNA as well as the wild-type cDNA into COS cells. The glycosylated mutant protein was retained intracellularly, and extracellular release of mutant protein was not observed after a 48 h chase. A cell fractionation experiment demonstrated that in the cells expressing the wild-type cathepsin D, the processed form of 44 kDa cathepsin D was recovered in the dense lysosomal fraction. In contrast, in the cells expressing the mutant protein, virtually all of the cell-associated cathepsin D was present in the light fraction which was enriched in the marker enzyme NADPH cytochrome c reductase, and this molecular form of cathepsin D was not observed in the dense lysosomal fraction. An immunofluorescence study revealed that the deletion mutant protein was accumulated within the endoplasmic reticulum, unlike the wild-type protein. These results suggest that the mutant cathepsin D is not correctly recognized by the intracellular sorting system in the endoplasmic reticulum, implying that the propeptide region of cathepsin D is essential for the export of cathepsin D from the endoplasmic reticulum.
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PMID:Intracellular targeting of lysosomal cathepsin D in COS cells. 874 16

The cysteine present in the Ig micro chain tailpiece (microtp) prevents the secretion of unpolymerized IgM intermediates and causes their accumulation in the endoplasmic reticulum (ER). In principle, this can be the consequence of actual retention in this organelle or of retrieval from the Golgi. To determine which of the two mechanisms underlies the cysteine-dependent ER localization, we analyze here the post-translational modifications of suitably engineered cathepsin D (CD) molecules. The glycans of this protease are phosphorylated by post-ER phosphotransferases and further modified in the trans-Golgi to generate a mannose 6-phosphate lysosome targeting signal. Only trace amounts of the mutp-tagged CD (CDM&mutpCys) are phosphorylated, unless retention is reversed by exogenous reducing agents or the critical cysteine mutated (CDMmutpSer). In contrast, a KDEL-tagged CD, that is retrieved from the Golgi into the ER, acquires phosphates, though mainly resistant to alkaline phosphatase. Similarly to CDMmutpSer, the few CDMmutpCys molecules that escape retention and acquire phosphates in the cis-Golgi are transported beyond the KDEL retrieval compartment, as indicated by their sensitivity to alkaline phosphatase. These results demonstrate that the thiol-dependent ER localization arises primarily from true retention, without recycling through the Golgi.
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PMID:Exposed thiols confer localization in the endoplasmic reticulum by retention rather than retrieval. 882 58

The kinetic properties of UDP-N-acetylglucosamine:lysosomal-enzyme N-acetylglucosamine-1-phosphotransferase (GlcNAc-phosphotransferase) purified to homogeneity from lactating bovine mammary gland have been investigated. GlcNAc-phosphotransferase transferred GlcNAc 1-phosphate from UDP-GlcNAc to the synthetic acceptor alpha-methylmannoside, generating GlcNAc-1-phospho-6-mannose alpha-methyl, the structure of which was confirmed by mass spectroscopy. GlcNAc-phosphotransferase was active between pH 5.7 and 9.3, with optimal activity between pH 6.6 and 7.5. Activity was strictly dependent on Mg2+ or Mn2+. The Km for Mn2+ was 185 microM. The Km for UDP-GlcNAc was 30 microM, and that for alpha-methylmannoside was 63 mM. The enzyme was competitively inhibited by UDP-Glc, with a Ki of 733 microM. The 166-kDa subunit was identified as the catalytic subunit by photoaffinity labeling with azido-[beta-32P]UDP-Glc. Purified GlcNAc-phosphotransferase utilizes the lysosomal enzyme uteroferrin approximately 163-fold more effectively than the non-lysosomal glycoprotein ribonuclease B. Antibodies to GlcNAc-phosphotransferase blocked the transfer to cathepsin D, but not to alpha-methylmannoside, suggesting that protein-protein interactions are required for the efficient utilization of glycoprotein acceptors. These results indicate that the purified bovine GlcNAc-phosphotransferase retains the specificity for lysosomal enzymes as acceptors previously observed with crude preparations.
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PMID:Bovine UDP-N-acetylglucosamine:lysosomal-enzyme N-acetylglucosamine-1-phosphotransferase. II. Enzymatic characterization and identification of the catalytic subunit. 894 Jan 56

We compared the processing and presentation of the model Ag, hen-egg white lysozyme (HEL) expressed in C3.F6 APC as a fusion protein to three different acid hydrolases: cathepsin D, to an unglycosylated form of cathepsin D, and to pepsinogen. As expected from the biology of mannose 6-phosphate (Man-6-P)-containing enzyme, cathepsin D-HEL was delivered to the endosomal/lysosomal system. In contrast, the unglycosylated cathepsin D-HEL was retained in ER/Golgi and some was found in lysosomes. Most of pepsinogen-HEL was rapidly secreted from the APC. All transfectants presented HEL epitopes to T cell hybridomas. Regardless of the main route of traffic of the proteins, the strong I-Ak binding epitope HEL 48-62 was well presented by all. The biochemical forms of this epitope were identical for all. Three other epitopes of HEL that bind I-Ak with less affinity were processed equally well by unglycosylated cathepsin D-HEL and HEL-Ld. The glycosylated cathepsin D-HEL was less efficient in generating the 114-129 epitope. Pepsinogen-HEL was the less efficient of all transfectants in presenting these subdominant epitopes. Soluble cathepsin D-HEL recovered from culture supernatant was strongly immunogenic when added to C3.F6. The uptake was inhibited by free Man-6-P, indicating that the surface Man-6-P receptor can effectively deliver proteins to the class II MHC system.
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PMID:Presentation on class II MHC molecules of endogenous lysozyme targeted to the endocytic pathway. 905

Chemotactic locomotion of fibroblasts requires extensive degradation of extracellular matrix components. The degradation is provided by a variety of proteases, including lysosomal enzymes. The process is regulated by cytokines. The present study shows that mannose 6-phosphate and insulin-like growth factor II (IGF-II) enhance fibroblast chemotaxis toward platelet-derived growth factor (PDGF). It is suggested that lysosomal enzymes (bearing mannose 6-phosphate molecules) are involved in chemotactic activity of the cells. The suggestion is supported by the observation that alpha-mannosidase and cathepsin D inhibitor-pepstatin are very potent inhibitors of fibroblast chemotaxis. Simultaneously, mannose 6-phosphate stimulates extracellular collagen degradation. The final step in collagen degradation is catalyzed by the cytosolic enzyme-prolidase. It has been found that mannose 6-phosphate stimulates also fibroblast prolidase activity with concomitant increase in lysosomal enzymes activity. The present study demonstrates that the prolidase activity in fibroblasts may reflect the chemotactic activity of the cells and suggests that the mechanism of cell locomotion may involve lysosomal enzyme targeting, probably through IGF-II/mannose 6-phosphate receptor.
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PMID:Fibroblast chemotaxis and prolidase activity modulation by insulin-like growth factor II and mannose 6-phosphate. 906 7

The lysosomal aspartyl protease cathepsin D is present in most mammalian cells and is active in the catabolism of intracellular and endocytosed proteins. It appears to be overexpressed and abnormally secreted in breast cancer cells, and may contribute to the process of tumor metastasis. In the present study, cathepsin D was purified 4500-fold from normal human breast tissue using pepstatin-agarose, DEAE Sephadex, and Sephadex G-75 chromatography. The resulting enzyme on SDS-PAGE contained five protein bands (47, 31, 29, 13, and 12kDa) which were all immunoreactive on western blot analysis using anti-cathepsin D polyclonal antibodies. The isoform profile of purified cathepsin D consisted of three major peaks at approximate pI 7.3, 6.8, and 6.3, and a broad area of lower activity between pI of 5.0 and 2.0. The purified enzyme had a broad pH optimum centered around pH 3.3. Lectin blotting indicated that cathepsin D is a glycoprotein which is recognized by Galanthus nivalis agglutinin and concanavalin A, suggesting the presence of mannose residues. However, Sambucus nigra agglutinin, Tetragonolobus purpureas agglutinin, Triticum vulgaris agglutinin, and Erythrina cristagalli agglutinin failed to recognize cathepsin D, suggesting a lack of lectin-available sialic acid, fucose, N-acetylglucosamine, and galactose residues, respectively.
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PMID:Purification and characterization of cathepsin D from normal human breast tissue. 915 88

Mannose 6-phosphate receptors carry newly synthesized lysosomal hydrolases from the trans-Golgi network to endosomes, then return to the trans-Golgi network for another round of enzyme delivery. Wortmannin, an inhibitor of phosphatidylinositol 3-kinase, interferes with the delivery of newly synthesized lysosomal enzymes to lysosomes. We used two independent assays of mannose 6-phosphate receptor trafficking to determine the precise step that is blocked by wortmannin. Using an assay that monitors resialylation of desialylated cell surface 300-kDa mannose 6-phosphate receptors, we found that receptor endocytosis and transport to the trans-Golgi network were not inhibited by 2 microM wortmannin. In addition, this concentration of drug had no effect on the transport of the mannose 6-phosphate receptor from late endosomes to the trans-Golgi network using a system that reconstitutes this transport process in cell extracts. Under the same conditions, wortmannin significantly inhibited the generation of mature cathepsin D. In addition, the structurally unrelated phosphatidylinositol 3-kinase inhibitor, LY294002, was also without effect when added to in vitro endosome-trans-Golgi network transport reactions. These experiments demonstrate that the interruption in lysosomal enzyme targeting is most likely due to a wortmannin-sensitive process required for the export of these receptors from the trans-Golgi network, consistent with the established role of phosphatidylinositol 3-kinase in the equivalent transport process in Saccharomyces cerevisiae.
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PMID:Phosphatidylinositol 3-kinase is not required for recycling of mannose 6-phosphate receptors from late endosomes to the trans-Golgi network. 924 39

BHK cells transfected with human cathepsin D (CD) cDNA normally segregate the autologous hamster cathepsin D while secreting a large proportion of the human proenzyme. In the present work, we have utilized these transfectants to examine to what extent the mannose-6-phosphate-dependent pathway for lysosomal enzyme segregation contributes to the differential sorting of human and hamster CD. We report that, in recipient control BHK cells, the rate of mannose-6-phosphate-dependent endocytosis of human procathepsin D secreted by transfected BHK cells is lower than that of hamster procathepsin D and much lower than that of human arylsulphatase A. The missorted human enzyme bears phosphorylated oligosaccharides and most of its phosphate residues are "uncovered", like the autologous enzyme. Thus, despite both the Golgi-associated modifications of oligosaccharides, i.e. the phosphorylation of mannose and the uncovering of mannose-6-phosphate residues, which proceed on human and hamster procathepsin D with comparable efficiency, only the latter is accurately packaged into lysosomes. Ammonium chloride partially affects the lysosomal targeting of cathepsin D in control BHK cells, whereas in transfected cells, this drug strongly inhibits the maturation of human procathepsin D and slightly enhances its secretion. These data indicate that: (1) over-expression of a lysosomal protein does not saturate the Golgi-associated reactions leading to the synthesis of mannose-6-phosphate; (2) a portion of cathepsin D is targeted independently of mannose-6-phosphate receptors in the transfected BHK cells; and (3) whichever mechanism for lysosomal delivery of autologous procathepsin D is involved, this is not saturated by the high rate of expression of human cathepsin D.
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PMID:Human and hamster procathepsin D, although equally tagged with mannose-6-phosphate, are differentially targeted to lysosomes in transfected BHK cells. 956 Apr 73

Previous studies have shown that lysine residues on the surface of cathepsins and other lysosomal proteins are a shared component of the recognition structure involved in mannose phosphorylation. In this study, the involvement of specific lysine residues in mannose phosphorylation of cathepsin D was explored by site-directed mutagenesis. Mutation of two lysine residues in the mature portion of the protein, Lys-203 and Lys-293, cooperated to inhibit mannose phosphorylation by 70%. Other positively charged residues could not substitute for lysine at these positions, and comparison of thermal denaturation curves for the wild type and mutant proteins indicated that the inhibition could not be explained by alterations in protein folding. Structural comparisons of the two lysine residues with those required for phosphorylation of cathepsin L, using models generated from recently acquired crystal structures, revealed several relevant similarities. On both molecules, the lysine residues were positioned approximately 34 A apart (34.06 A for cathepsin D and 33.80 A for cathepsin L). When the lysine pairs were superimposed, N-linked glycosylation sites on the two proteins were found to be oriented so that oligosaccharides extending out from the sites could share a common region of space. Further similarities in the local environments of the critical lysines were also observed. These results provide details for a common lysosomal targeting structure based on a specific arrangement of lysine residues with respect to each other and to glycosylation sites on the surface of lysosomal proteins.
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PMID:Lysine-based structure responsible for selective mannose phosphorylation of cathepsin D and cathepsin L defines a common structural motif for lysosomal enzyme targeting. 969 59

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