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)

Intracisternal granules (ICGs) are insoluble aggregates of pancreatic digestive enzymes and proenzymes that develop within the lumen of the rough endoplasmic reticulum of exocrine pancreatic cells, especially in guinea pigs. These ICGs are eliminated by autophagy. By morphological criteria, we identified three distinct and sequential classes of autophagic compartments, which we refer to as phagophores, Type I autophagic vacuoles, and Type II autophagic vacuoles. Lobules of guinea pig pancreas were incubated in media containing HRP for periods of 5-120 min to determine the relationship between the endocytic and autophagic pathways. Incubations with HRP of 15 min or less labeled early endosomes at the cell periphery that were not involved in autophagy of ICGs, but after these short incubations none of the autophagic compartments were HRP positive. After 30-min incubation with HRP, early endosomes at the cell periphery, late endosomes in the pericentriolar region, and, in addition, Type I autophagic vacuoles containing ICGs were all labeled by the tracer. Type II autophagic vacuoles were not labeled after 30-min incubation with HRP but were labeled after incubations of 60-120 min. Phagophores did not receive HRP even after 120 min incubations. We concluded that the autophagic and endocytic pathways converge immediately after the early endosome level and that Type I autophagic vacuoles precede Type II autophagic vacuoles on the endocytic pathway. We studied the distribution of acid phosphatase, lysosomal proteases and cation-independent-mannose-6-phosphate receptor (CI-M6PR) in the three classes of autophagic compartments by histochemical and immunocytochemical methods. Phagophores, the earliest autophagic compartment, contained none of these markers. Type I autophagic vacuoles contained acid phosphatase but, at most, only very low levels of cathepsin D and CI-M6PR. Type II autophagic vacuoles, by contrast, are enriched for acid phosphatase, cathepsin D, and other lysosomal enzymes, and they are also enriched for CI-M6PR. Moreover, soluble fragments of bovine CI-M6PR conjugated to colloidal gold particles heavily labeled Type II but not Type I autophagic vacuoles, and this labeling was specifically blocked by mannose-6-phosphate. This indicates that the lysosomal enzymes present in Type II autophagic vacuoles carry mannose-6-phosphate monoester residues. Using 3-C2, 4-dinitroanilino-3'-amino-N-methyldipropylamine (DAMP), we showed that Type II autophagic vacuoles are acidic. We interpret these findings as indicating that Type II autophagic vacuoles are a prelysosomal compartment in which the already combined endocytic and autophagic pathways meet the delivery pathway of lysosomal enzymes.
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PMID:In exocrine pancreas, the basolateral endocytic pathway converges with the autophagic pathway immediately after the early endosome. 216 50

Cytolytic lymphocytes contain specialized lytic granules whose secretion during cell-mediated cytolysis results in target cell death. Using serial section EM of RNK-16, a natural killer cell line, we show that there are structurally distinct types of granules. Each type is composed of varying proportions of a dense core domain and a multivesicular cortical domain. The dense core domains contain secretory proteins thought to play a role in cytolysis, including cytolysin and chondroitin sulfate proteoglycan. In contrast, the multivesicular domains contain lysosomal proteins, including acid phosphatase, alpha-glucosidase, cathepsin D, and LGP-120. In addition to their protein content, the lytic granules have other properties in common with lysosomes. The multivesicular regions of the granules have an acidic pH, comparable to that of endosomes and lysosomes. The granules take up exogenous cationized ferritin with lysosome-like kinetics, and this uptake is blocked by weak bases and low temperature. The multivesicular domains of the granules are rich in the 270-kD mannose-6-phosphate receptor, a marker which is absent from mature lysosomes but present in earlier endocytic compartments. Thus, the natural killer granules represent an unusual dual-function organelle, where a regulated secretory compartment, the dense core, is contained within a pre-lysosomal compartment, the multivesicular domain.
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PMID:The lytic granules of natural killer cells are dual-function organelles combining secretory and pre-lysosomal compartments. 227 62

MHC class II (MHC-II) molecules bind fragments of exogenous Ags in an intracellular endocytotic compartment. In view of divergent data on the MHC-II distribution in different cell lines, it was of interest to localize MHC-II molecules in a natural and the most potent APC type, the dendritic cell (DC). By using immunogold labeling of ultrathin cryosections of cultured mouse spleen DC, we found that MHC-II molecules were present abundantly at the plasma membrane and in intracellular compartments containing internal membrane vesicles and/or membrane sheets. The majority of these compartments was situated late in the endocytotic route, as demonstrated by the late appearance (after a lag of 30 min) of internalized exogenous tracer. These compartments contained the lysosomal enzymes cathepsin D and beta-hexosaminidase, but lacked the late endosomal marker cation-dependent mannose-6-phosphate receptor. We conclude that most of the intracellular MHC-II molecules in cultured spleen DC reside in a compartment with (pre)lysosomal characteristics, resembling the so-called MHC-II-enriched compartments (MIIC), originally described in B cells. We also investigated whether the presence of MHC-II molecules in endocytotic compartments was related to the kinetics of Ag processing and presentation by these cells. Pulse-chase endocytosis experiments with hen egg lysozyme (HEL) as a model Ag showed that activated spleen DC were able to efficiently process and present this Ag to an HEL-specific T hybridoma cell line. However, presentation started only after a lag of 2 h and was maximal after 6 h. The difference in time between the arrival of Ag in proteolytic endocytotic compartments, in particular MIIC, and effective Ag presentation is discussed in the context of DC maturation.
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PMID:MHC class II compartments and the kinetics of antigen presentation in activated mouse spleen dendritic cells. 775 23

CTLs from patients with Chediak-Higashi syndrome (CHS) are unable to destroy target cells recognized via the TCR. To determine the mechanism responsible for the loss of cytotoxicity, CD8+ CTL clones have been derived from a patient with CHS. Individual CTL clones show poor killing that can be increased in longer assays. However, in the presence of cycloheximide, the small amount of killing observed is abolished, indicating killing arises from newly synthesized proteins, rather than from proteins stored in granules. In this study, we show that the CHS CTL clones express normal levels of the lytic proteins granzyme A, granzyme B, and perforin, which are processed properly during biosynthesis and targeted correctly to giant lytic granules. Despite the difference in size, CHS and normal lytic granules are similar, in that both contain the lysosomal enzyme cathepsin D and the lytic protein granzyme A, and lack the mannose-6-phosphate receptor (MPR). However, unlike normal CTL clones, the CHS CTL clones are unable to secrete their giant granules in which the lytic proteins are stored. After cross-linking the TCR, CHS CTL clones fail to secrete granzyme A, as assayed by both enzyme release and confocal microscopy. We suggest that the defect in CHS lies in a protein that is involved in membrane fusion and is essential for the secretion of lysosomal compartments in certain hemopoietic cells.
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PMID:Loss of cytotoxic T lymphocyte function in Chediak-Higashi syndrome arises from a secretory defect that prevents lytic granule exocytosis. 775 53

Chediak-Higashi Syndrome (CHS) is an autosomal recessive disease affecting secretory granules and lysosomes-like organelles. In CHS fibroblasts, acidic organelles are abnormally large and clustered in the perinuclear area. We have analyzed fibroblast cell lines from a CHS patient and from the murine model for CHS, the beige mouse, to determine which lysosome-like compartments are affected. Uptake of neutral red showed that in both beige and CHS cell lines, the acidic organelles were markedly clustered in the perinuclear region of the cells. Giant organelles (> 4 microns) were observed in a fraction of the cells, and these were more dramatic in the beige fibroblasts than in the CHS fibroblasts. The total dye uptake of both mutant cell lines was similar to their respective wild type fibroblasts, suggesting that the overall volume of acidic compartments is unaffected by the disorder. Histochemistry and immunofluorescence showed that the giant organelles in both beige and CHS fibroblasts were positive for cathepsin D, lysosome-associated membrane protein (LAMP) 1, LAMP 2, and a 120-kD lysosomal glycoprotein, all marker proteins for late endosomes and lysosomes. The giant organelles were also negative for transferrin receptor and mannose-6-phosphate receptor, and most of them were also negative for rab 7. This distribution of marker proteins shows that the giant organelles in both beige and CHS are derived from late compartments of the endocytic pathway. This conclusion was confirmed using endocytic tracers. BSA was transported to the giant organelles, but only after long incubation times, and only at 37 degrees C. alpha 2-Macroglobulin was taken up and degraded at similar rates by CHS or beige cells and their respective wild type control cells. Taken together, our results indicate that the mutation in CHS specifically affects late endosomes and lysosomes, with little or no effect on early endosomes. Although the mutation clearly causes mislocalization of these organelles, it appears to have little effect on their endocytic and degradative functions.
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PMID:The giant organelles in beige and Chediak-Higashi fibroblasts are derived from late endosomes and mature lysosomes. 790 7

Epithelial cells in situ can internalize their desmosomes. This can be induced in cell cultures after removal of calcium ions from the cell medium. To study this endocytic process, a nontumorigenic human breast epithelial cell line, HMT-3522, was used. HMT-3522 cells were grown in serum-free, chemically defined medium, containing epidermal growth factor (EGF). Removal of EGF from the medium led to growth arrest and a kind of epithelial differentiation process in which adjacent cells interdigitated and formed more desmosomes than in the proliferating state. Growth-inhibited HMT-3522 cells dissociated following EGTA treatment, the desmosomes divided in a symmetrical fashion, and the desmosomal plaques (half-desmosomes) on the cell surface became internalized. The internalization was independent of clathrin, since immunogold labeling of ultracryosections never showed clathrin on desmosomal plaque-associated membrane domains. Moreover, cytosol acidification, which selectively inhibits endocytosis from clathrin-coated pits, practically blocked the uptake of transferrin, whereas internalization of desmosomal plaques continued. In contrast, actin filaments appeared to be involved in the desmosomal internalization. Thus, depolymerization of actin filaments by cytochalasin D significantly reduced endocytosis of half-desmosomes. Immunogold labeling showed that the vesicles with desmosomal plaques were not enriched in MPR (cation-independent mannose-6-phosphate receptor), cathepsin D or the lysosome-associated membrane protein lamp-1. In addition, the morphology was different. Thus, the endocytic vesicles with desmosomal plaques represent a special compartment, distinct from typical endosomes and lysosomes.
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PMID:Endocytosis of desmosomal plaques depends on intact actin filaments and leads to a nondegradative compartment. 792 92

The secretion of pro-cathepsin D (pro-cath-D) in some human metastatic breast cancer cells (MCF7, MDA/MB231), contrary to normal mammary cells, is not increased by ammonium chloride treatment, indicating a mannose-6-phosphate-independent sorting to lysosomes. By studying a variety of cell lines and lysosomal enzymes, we show that secretion of newly synthesized pro-cath-D was not mediated by the 46-kDa mannose-6-phosphate receptor (MPR) and that its resistance to NH4Cl for secretion was specific to cath-D and not to other lysosomal enzymes. This resistance appeared to be correlated with the basal hypersecretion of pro-cath-D, but not with its overexpression. By contrast, pro-cath-D secretion was increased by NH4Cl in fibroblasts and nontumoral epithelial mammary cells, suggesting a specificity for cancer cells. Immunofluorescence staining showed that pro-cath-D, but neither cathepsin B nor beta-hexosaminidase, accumulated in intracytoplasmic vesicles of cells treated with ammonium chloride. In pulse--chase experiments and by subcellular fractionation on Percoll gradient, cath-D was found to be sorted into dense lysosomes whether cells were treated or not by NH4Cl. Treatment of cells with NH4Cl, however, inhibited processing and maturation of pro-cath-D, which was also observed in light vesicles in the absence of NH4Cl. Part of pro-cath-D, but not processed enzyme, was also found to be membrane associated in saponin-permeabilized cells. We conclude that in breast cancer cells, the MPR-independent pathway of pro-cath-D to lysosome is predominant compared to normal cells and other lysosomal enzymes. This alternative pathway should therefore be considered, in addition to MPR, to explain pro-cath-D sorting and activation in breast cancer cells.
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PMID:Specific mannose-6-phosphate receptor-independent sorting of pro-cathepsin D in breast cancer cells. 795 63

Cathepsin D is overexpressed in most primary breast cancers where its concentration is correlated with increased metastatic potential. To investigate the possible role and mechanism of this lysosomal protease in metastasis, we transfected low-metastatic rat tumor cells with wild-type human cathepsin D, or mutated forms obtained by insertion of a KDEL peptide signal responsible for ER retention, or a control KDAS peptide. The overexpressed pro-cathepsin D in wild-type and KDAS clones was normally sorted and maturated in lysosomes. In KDEL clones, pro-cathepsin D was mostly retained in the ER or partially secreted by high-producer clones but was not maturated. While overexpressed cathepsin D increased experimental metastasis in athymic mice, the pro-cathepsin/D-KDEL was totally ineffective. Moreover, the effect of cathepsin D on metastasis did not seem to be due to saturation of the mannose-6-phosphate receptor since the secretion of two other rat lysosomal enzymes was unaffected by cathepsin D overexpression. We conclude that pro-cathepsin D overexpression facilitates tumor metastasis only when maturated into an active enzyme.
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PMID:Cathepsin D maturation and its stimulatory effect on metastasis are prevented by addition of KDEL retention signal. 813 16

We characterized the Mycobacterium marinum phagosome by using a variety of endocytic markers to follow the path of the bacteria through a mouse macrophage cell line. Using a laser confocal microscope, we found that the majority of viable M. marinum cells were in nonacidic vacuoles that did not colocalize with the vacuolar proton ATPase (V-ATPase), the calcium-independent mannose-6-phosphate receptor (CI-M6PR), or cathepsin D. In contrast, heat-killed organisms and latex beads were in acidic vacuoles which contained the V-ATPase, the CI-M6PR, and cathepsin D. A population of vesicles that contained live M. marinum labeled with the lysosomal glycoprotein LAMP-1, but the percentage of vacuoles that labeled was lower than for heat-killed organisms or latex beads. When testing live and heat-killed Mycobacterium tuberculosis, we found levels of colocalization with LAMP- and cathepsin D comparable to those for the M. marinum isolate. We conclude that M. marinum, like M. tuberculosis, can circumvent the host endocytic pathway and reside in an intracellular compartment which is not acidic and does not fuse with lysosomes. In addition, we describe a system for sampling a large population of intracellular organisms by using a laser confocal microscope.
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PMID:Differential trafficking of live and dead Mycobacterium marinum organisms in macrophages. 911 92

The early endosome is the first vacuolar compartment along the endocytic pathway. It is the site of internalization and initial processing of amyloid precursor protein (APP) and apolipoprotein E (ApoE), two proteins of etiological importance in Alzheimer's disease, and a putative site of beta-amyloid peptide (Abeta) formation. Here, we identify early endosomes in human pyramidal neurons, using specific compartmental markers and morphometry, and show that in Alzheimer's disease individual endosomes display up to 32-fold larger volumes than the normal average. Endosomal enlargement contributed to an average 2.5-fold larger total endosomal volume per neuron, implying a marked increase in endocytic activity. Endosomal alterations were evident in most pyramidal neurons in Alzheimer brain, detectable at early stages of the disease but absent in several other neurodegenerative disorders examined. In addition, mature and proenzyme forms of the proteases cathepsin B and cathepsin D, a candidate APP secretase, were identified in most early endosomes in Alzheimer brains but were detectable in only a minor proportion of endosomes in normal brain. Expression of the cation-dependent 46 kDa mannose 6-phosphate receptor was elevated in pyramidal neurons of Alzheimer brains, which could be a possible basis for the altered cathepsin trafficking pattern. Enhanced endocytic activity, coupled with increased trafficking to endosomes of proteases, which may have the ability under pathological conditions to generate Abeta, constitutes a potential mechanism by which beta-amyloidogenesis may become accelerated in sporadic AD and also be subject to influences by ApoE.
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PMID:Increased neuronal endocytosis and protease delivery to early endosomes in sporadic Alzheimer's disease: neuropathologic evidence for a mechanism of increased beta-amyloidogenesis. 923 26

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