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)

LH and FSH are composed of a common alpha-subunit and a noncovalently associated hormone-specific beta-subunit. Unassociated beta LH and beta FSH can be retained in the cisternae of endoplasmic reticulum (ER). This phenomenon is particularly evident in gonadotropes of castrated animals where beta-subunits are expressed in larger amounts than the alpha-subunit. Because little was known about the fate of the gonadotropin beta-subunits retained in the ER, we carried out immunocytochemical studies on ultrathin frozen sections of anterior pituitaries of castrated rats. After castration, the intracellular levels of the beta-subunits were found to increase more than that of the alpha-subunit. When the subcellular localization of the alpha- and beta-subunits and secretogranin II (a regulated secretory protein present in the secretory granules of gonadotropes of many species) was investigated by double immunoelectron microscopy, both gonadotropin subunits were colocalized in secretory granules with secretogranin II. However, only the beta-subunits, not the alpha-subunit and secretogranin II, were localized in the dilated cisternae of the ER as well as in irregularly shaped vacuoles. Using markers for the endoplasmic reticulum, the prelysosomal compartment and lysosomes (cathepsin D and lgp120), we found that these vacuoles correspond to a degradative compartment with two types of intermediates: 1) one with small amounts of lgp120, and cathepsin D preferentially localized at the periphery of a central dense matrix; and 2) the other with larger amounts of lgp120, and cathepsin D present all over the matrix of the vacuole. These vacuoles do not derive from autophagy because vesicles surrounded by a double or multilamellar membrane containing profiles of ER cisternae together with small amounts of the cytoplasm were never detected. Moreover, they do not correspond to crinophagic bodies because the latter contained beta-subunits as well as alpha-subunit and SgII. Our data indicate that gonadotropin beta-subunits, probably retained as unassociated subunits in the endoplasmic reticulum of castrated rat gonadotropes, undergo degradation in vacuoles that acquire lysosomal enzymes. This process appears different from the classical autophagy, but similar to the nonautophagic pathway for the diversion to lysosomes of the intracisternal granules accumulated in the ER of hyperstimulated thyrotropes.
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PMID:Degradation of gonadotropin beta-subunits retained in the endoplasmic reticulum of the gonadotropes of castrated rats. 786 70

We have investigated the autophagocytic process of excess peroxisomes and mitochondria induced by di-(2-ethylhexyl)phthalate (DEHP) treatment using immunocytochemical techniques. Rat liver peroxisomes were induced by 2 weeks treatment with DEHP. The animals were then injected with leupeptin (2 mg/100 g body weight), and their livers were fixed by perfusion at various intervals. The liver tissues were embedded in LR White or Epon. Semithin sections of the Epon-embedded tissue were stained for cathepsin D, B, and H, and lysosomal glycoprotein (LGP107) by the immunoenzyme technique after removal of epoxy resin. Thin sections of LR White-embedded tissue were stained for the same antigens by the immunogold technique. Some liver specimens were processed to ultracryotomy, and frozen-thawed thin sections were immunostained for carboxylesterase E1 and alpha-glucosidase II, endoplasmic reticulum (ER) markers. Twenty minutes after leupeptin injection, many peroxisomes and mitochondria were surrounded by a double-layered membrane (isolation membrane) continuous with the ER. These membranes were positive for carboxylesterase E1 and alpha-glucosidase, but not for LGP107 as well as cathepsins. Forty to 60 minutes after leupeptin injection many autophagic vacuoles showing various developing stages appeared and accumulated. The early autophagic vacuoles were surrounded by a double-layered membrane, whereas the late autophagic vacuoles had a single limiting membrane. The former was negative for cathepsins as well as LGP107, but positive for carboxylesterase E1 and alpha-glucosidase II. The results suggest strongly that the isolation membrane is derived from the ER membrane and converted later into the lysosomal membrane and support our previous morphological observations.
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PMID:Formation of autophagosomes during degradation of excess peroxisomes induced by di-(2-ethylhexyl)phthalate treatment. II. Immunocytochemical analysis of early and late autophagosomes. 792 93

The subcellular distribution and targeting of the non-lysosomal aspartic proteinase cathepsin E have been studied using mouse L cells and monkey Cos 1 cells that were transfected with cDNA encoding cathepsin E. The cathepsin E was retained in L cells for at least 20 h without significant degradation and its single N-linked oligosaccharide remained sensitive to endo-beta-N-acetyl-glucosaminidase H. When cathepsin E was overexpressed by transient transfection in Cos 1 cells, it was very slowly secreted into the media. The intracellular form of the enzyme contained a high mannose oligosaccharide which was processed to a complex type species upon secretion. In double label immunofluorescence studies, cathepsin E co-localized with cathepsin D-myc-KDEL, an endoplasmic reticulum (ER) marker. Subcellular fractionation on a Percoll density gradient showed that the cathepsin E co-migrated with membranous vesicles that were distinct from dense lysosomes. Only a trace amount of the enzyme was recovered in the soluble fraction. These findings indicate that in L cells and Cos 1 cells, the intracellular location of cathepsin E is the endoplasmic reticulum. To identify the protein sequences required for ER retention, we made chimeric proteins between cathepsin E and pepsinogen, an aspartic proteinase that is rapidly secreted by Cos 1 cells. We found that amino acids 1-48 of cathepsin E are important for its retention in the ER. Within this region, Cys7, which is involved in covalent dimer formation, plays a significant role in the retention.
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PMID:Subcellular localization and targeting of cathepsin E. 798 70

To study the mechanism involved in mannose-6-phosphate (Man-6-P) independent lysosomal proenzyme membrane association, we used a reversible cross-linker to probe radiolabeled human HepG2 cells permeabilized with saponin in the presence of Man-6-P. After immunoprecipitation of the extracted and cross-linked cells with anti-cathepsin D antibody, followed by complete reduction of the immunoprecipitates and SDS-polyacrylamide gel electrophoresis analysis, we found that procathepsin D was specifically and transiently associated, independent of Man-6-P, with two co-synthesized glycoproteins having molecular masses of 68 and 72 kDa. Pulse-chase and cell fractionation experiments showed that the Man-6-P independent association of procathepsin D with the 68-kDa protein started in the rough endoplasmic reticulum, continued in the Golgi, but had no association with either membrane. The Man-6-P independent association of procathepsin D with the 72-kDa protein and the membrane was found in compartments all the way from the Golgi to the dense lysosome, where processing of procathepsin D is believed to occur and where procathepsin D dissociated from the 72-kDa protein and the membrane. Endo H digestion of the 72-kDa protein showed that this protein was partially resistant to Endo H, suggesting that membrane association of the procathepsin D-72-kDa protein complex probably began in a late Golgi compartment. Endo F digestion of the proteins showed both have the same molecular mass around 58 kDa. Using antiserum against human saposin C, we identified the two glycoproteins as forms of prosaposin with different glycosylation. The transient, Man-6-P independent, membrane association of the procathepsin D-prosaposin complex and the presence of this complex in heavy lysosomes indicated that the proteins were transported to the lysosome as a complex. The association of two lysosomal proteins in the endoplasmic reticulum early after synthesis suggested that preassembly of some lysosomal components occurs before the earliest previously identified steps in the sorting pathway.
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PMID:Intermolecular association of lysosomal protein precursors during biosynthesis. 810 29

Plasma cells secrete IgM only in the polymeric form: the C-terminal cysteine of the mu heavy chain (Cys575) is responsible for both intracellular retention and assembly of IgM subunits. Polymerization is not quantitative, and part of IgM is degraded intracellularly. Neither chloroquine nor brefeldin A (BFA) inhibits degradation, suggesting that this process occurs in a pre-Golgi compartment. Degradation of IgM assembly intermediates requires Cys575: the monomeric IgMala575 mutant is stable also when endoplasmic reticulum (ER) to Golgi transport is blocked by BFA. Addition of the 20 C-terminal residues of mu to the lysosomal protease cathepsin D is sufficient to induce pre-Golgi retention and degradation of the chimeric protein: the small amounts of molecules which exit from the ER are mostly covalent dimers. By contrast, when retained by the KDEL sequence, cathepsin D is stable in the ER, indicating that retention is not sufficient to cause degradation. Replacing the C-terminal cysteine with serine restores transport through the Golgi. As all chimeric cathepsin D constructs display comparable protease activity in vitro, their different fates are not determined by gross alterations in folding. Thus, also out of its normal context, the mu chain Cys575 plays a crucial role in quality control, mediating assembly, retention and degradation.
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PMID:Quality control of ER synthesized proteins: an exposed thiol group as a three-way switch mediating assembly, retention and degradation. 822 84

Microinjection of antibodies against a synthetic peptide of a non-clathrin-coated vesicle-associated coat protein, beta-COP, blocks transport of a temperature-sensitive vesicular stomatitis virus glycoprotein (ts-O45-G) to the cell surface. Transport is inhibited upon release of the viral glycoprotein from temperature blocks at 39.5 degrees C (endoplasmic reticulum [ER]) and 15 degrees C (intermediate compartment), but not at 20 degrees C (trans-Golgi network). Ts-O45-G is arrested in tubular membrane structures containing p53 at the interface of the ER and the Golgi stack. This is consistent with inhibition of acquisition of endoglycosidase H resistance of ts-O45-G in injected cells. Secretion of endogenous proteins and maturation of cathepsin D are also inhibited. These data provide in vivo evidence that beta-COP has an important function in biosynthetic membrane traffic in mammalian cells.
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PMID:Beta-COP is essential for biosynthetic membrane transport from the endoplasmic reticulum to the Golgi complex in vivo. 833 7

Brefeldin A (BFA) rapidly blocks anterograde exocytotic transport through the Golgi complex. Sustained retrograde traffic induced by brefeldin A causes redistribution of constituents of the Golgi, but not the trans-Golgi network (TGN), to the endoplasmic reticulum (ER). In the present study on HepG2 cells, we have observed a differential effect of BFA on transport from the TGN of two soluble proteins: alpha 1-antitrypsin as a representative of secretory proteins and cathepsin D as a prototype of lysosomal enzymes. The Golgi complex of HepG2 cells is sensitive to BFA, as within minutes after its addition nearly all activity of three resident Golgi enzymes was recovered in the ER as monitored by cell fractionation on sucrose density gradients. In accordance with this, "high mannose"-glycosylated alpha 1-antitrypsin was retained in or transported back to the ER. "Complex"-glycosylated alpha 1-antitrypsin was neither secreted into the medium nor transported back to the ER. Most of it was retained in vesicles with the buoyant density of Golgi. These vesicles contained the fluid phase endocytotic marker horseradish peroxidase when this was added to the culture medium prior to the BFA, suggesting that the vesicles derived from the TGN. After BFA addition, the compartment became inaccessible to endocytosed horseradish peroxidase. In contrast to blocking transport of complex alpha 1-antitrypsin, BFA did not affect processing of newly synthesized complex-glycosylated procathepsin D (53 kDa) to the mature 31-kDa form. Neither did it interfere with processing of endocytosed procathepsin D. That the mature cathepsin D had indeed reached the lysosomes was verified by Percoll density gradient fractionation. In conclusion, in HepG2 cells, BFA induces two blocks in the secretory pathway: one at the level of the ER-Golgi juncture and the other in the TGN. In contrast, transport from the Golgi complex to the lysosomes and from the plasma membrane to the lysosomes continued.
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PMID:Differential effects of brefeldin A on transport of secretory and lysosomal proteins. 842 8

A specific rabbit anti-human serum was used selectively to localize the aspartic proteinase cathepsin E to follicle associated epithelium (FAE) of human and rat intestine, including jejunum, ileum, appendix, colon and rectum, as well as of human palatine, pharyngeal and lingual tonsils. Coexpression of class II histocompatibility antigen HLA-DR antigen has been observed in some of the cathepsin E-positive epithelial cells. In addition, cathepsin E has been detected in a few mononuclear cells of intestinal lymphoid structures and tonsils resembling interdigitating reticulum cells of lymph nodes. Another aspartic proteinase, cathepsin D, has been found to be poorly represented in FAE and intensely expressed by macrophages. Electron immunocytochemistry localized cathepsin E to endosomal vesicles and endoplasmic reticulum of M cells in rat and human ileum as well as of M-like cells in human palatine tonsil. The results suggest a possible role of endosomal cathepsin E in the processing of macromolecules and microorganisms transported by M cells and related epithelial cells to mucosal associated lymphoid tissue (MALT).
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PMID:Cathepsin E in follicle associated epithelium of intestine and tonsils: localization to M cells and possible role in antigen processing. 849 74

We previously reported that a substantial amount of newly synthesized apoE in mouse macrophages is degraded prior to secretion; a portion of this pool of apoE can be rescued by the addition of HDL3 to the incubation medium. In the present studies, the location and nature of the intracellular degradation of apoE were more closely examined. Inhibitors of protein trafficking (brefeldin A) as well as a number of protease inhibitors were used. The experiments using brefeldin A (5 micrograms/ml) clearly established that neither the endoplasmic reticulum nor the Golgi complex are the sites of apoE degradation. Using a pulse-chase design, [35S]apoE cannot be chased out in the presence of brefeldin A and remains undegraded within the cell. The accumulated apoE lacks the sialic acid residues, indicating that this final stage of processing must occur in the trans-Golgi network or later. Lysosomotropic agents, ammonium chloride and chloroquine, on the other hand, inhibit apoE degradation by over 70 and 80%, respectively, while total cell protein degradation remains unaffected. Similarly, a cocktail consisting of four lysosomal protease inhibitors (pepstatin, E-64, chymostatin, and antipain), inhibits specifically apoE degradation by over 60%. In contrast, ALLN, an inhibitor of Ca(2+)-dependent cysteine proteases, has a moderate effect on apoE degradation (30% inhibition) and a more pronounced effect on total protein degradation. These data suggest that the site of intracellular apoE degradation in the macrophage is the lysosome. These conclusions are supported by light and electron microscopy of macrophages, clearly showing the presence of immunoreactive apoE (along with cathepsin D) in the endosomal/lysosomal compartment of control and lysosomotropic agent-treated cells. In contrast, little or no labeling is seen in this compartment in brefeldin A-treated cells. At lower concentrations of the lysosomotropic agents, the extent of inhibition of apoE degradation is compensated for by its increased secretion, in a manner analogous to the effect of these agents on lysosomal enzymes. Higher concentrations of these agents, which lead to a profound inhibition of apoE degradation, also specifically block apoE secretion. The block in apoE secretion in the presence of high concentrations of chloroquine leads to undiminished or higher concentrations of immunoreactive apoE in the endosomal/lysosomal compartment, suggesting that apoE is targeted for lysosomal degradation directly, without prior secretion or surface association. These data strongly suggest pH-dependent sorting of apoE in macrophages to the degradative and secretory pathways and imply a protein-protein interaction in the process.
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PMID:Lysosomal degradation and sorting of apolipoprotein E in macrophages. 857 39

MHC class II molecules associate with peptides in the endocytic pathway. Different endosomal locations for peptide loading of class II molecules, varying from early endosomes (EE) to lysosomes, have been assigned on the basis of subcellular fractionation experiments. We have determined the intracellular location of HLA-DM, a molecule that supports peptide loading of class II molecules, by separating vesicles from the melanoma cell line Mel JuSo on the basis of buoying density and surface charge. In both fractionations, HLA-DM co-fractionated with a lysosomal compartment containing beta-hexosaminidase (beta-hex) activity and not with endosomes. Further analysis showed that HLA-DM mainly co-fractionated with a sub-lysosomal structure characterized by a relative low density and containing both pro- and mature cathepsin D and MHC class II molecules. Fluid phase markers first enter this compartment before entering high-density lysosomes that contain exclusively mature cathepsin D, some HLA-DM and no detectable MC class II molecules. Finally we determined the intracellular location of neutral and acidic peptidases. Whereas neutral peptidase activity was detected in the endoplasmic reticulum and/or plasma membrane fractions, acidic peptidase activity exclusively migrated at the position of HLA-DM containing lysosomal vesicles. Our results show that class II molecules co-migrate with HLA-DM, pro- and mature cathepsin D, beta-hex and acidic peptidase activity. HLA-DM, cathepsin d and class II molecules were not observed at the position of EE. Our data suggest that HLA-DM-mediated peptide loading of class II molecules occurs in a lysosomal subcompartment.
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PMID:HLA-DM and MHC class II molecules co-distribute with peptidase-containing lysosomal subcompartments. 867 50

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