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 this study, the polyanionic compound suramin was shown to be a potent in vitro growth inhibitor of both hormone-insensitive, estrogen receptor-negative human breast cancer cells (MDA MB231 and SK-BR-3) and hormone-responsive, estrogen receptor-positive human breast cancer cells (ZR 75-1, T47D, and MCF7). The inhibitory effect of suramin was dose dependent, with a median effective dose varying from 7 microM for MDA MB231 cells to 50 microM for MCF7 cells. This result indicated that estrogen receptor-negative cells were more sensitive to the drug. In MCF7 cells, not only did suramin block the mitogenic action of growth factors such as epidermal growth factor (EGF) and insulin-like growth factors I and II (IGF-I and IGF-II, respectively), but it also totally abolished the increase in cell proliferation induced by the steroid hormone 17 beta-estradiol (E2). Maximal inhibition was obtained after 5 days of suramin treatment, and inhibition either was partially reversed by E2, IGF-I, and IGF-II or was not reversible by EGF following removal of drug. In addition, suramin significantly decreased synthesis and secretion of the lysosomal enzyme cathepsin D, which was shown to be associated with a high risk of breast tumor metastasis. These results therefore suggest that, because of its effects on growth and cathepsin D secretion, suramin might be a helpful additional therapeutic tool for breast cancer patients, especially for patients with estrogen receptor-negative tumors which are insensitive to antihormonal strategies.
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PMID:Inhibition of breast cancer growth by suramin. 173 71

Cathepsin D, an acidic protease normally acting in lysosomes, is overproduced both in vitro and in vivo in most breast cancer cells. The mechanism of gene regulation by estrogens and the biological and clinical significance of this overexpression in metastasis are reviewed. In MCF7 cells, cathepsin D is specifically and directly induced by estrogens and also induced by growth factors (EGF, IGF-I and bFGF), but this induction is dependent upon de novo protein synthesis. The mechanism of estrogen induction involves EREs located upstream from the gene. Our laboratory cloned the promoter region (-4kb) of cathepsin D of MCF7 cells and found EREs located in the proximal 5' region of the gene. In MDA-MB231 and BT20 cells, cathepsin D is overexpressed but not regulated by estrogens. Total cathepsin D concentration were assayed by IRMA in breast cancer cytosol routinely prepared for receptor assays. Several retrospective clinical studies indicate a significant correlation between high cathepsin D concentrations in the cytosol of primary breast cancer and further development of clinical metastasis. High cathepsin D concentration in the primary tumor may be either a consequence, or more likely a cause, of metastasis. Transfection experiments using cDNA-cathepsin D in rat tumoral cells facilitates their metastatic potential in nude mice (Garcia et al., Oncogene, 1990, 5, 1809-1814). The mechanism of cathepsin D action in facilitating metastasis is unknown and may involve proteolytic activity in an acidic compartment, and/or interaction with the Man 6P/IGFII receptor.
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PMID:[Mechanism of the overexpression of the cathepsin D gene in breast cancer and consequences in the metastatic process]. 182 91

The cathepsin D gene is differentially regulated by estrogens in hormone responsive breast cancer cells, by progestins in normal human endometrium and is highly expressed but not regulated by these steroids in estrogen (RE)- and progesterone receptor (RP)-negative breast cancer cells. We have stably transfected the RE-negative breast cancer cell line MDA-MB 231 and the Hela cell line with an expression vector for the human RE. The endogenous cathepsin D which is constitutively expressed was further stimulated by estradiol. However, the growth of both cell lines was not stimulated by estradiol and could not be inhibited by the antiestrogen ICI 164,384. By contrast, the cathepsin D gene in the estrogen responsive Ishikawa endometrial cancer cell line was unresponsive to estrogen or to progesterone even following stable transfection of expression vectors for the RP (both A and B isoforms). We conclude that the cathepsin D gene is potentially responsive to estrogens in MDA-MB 231 and Hela cells, which therefore express all of the transcriptional machinery (except the RE) necessary for this regulation. By contrast, cathepsin D remains unresponsive to estrogen and progesterone in Ishikawa cells. The cathepsin D gene is one of the first examples of an endogenous steroid responsive gene which can be controlled by steroids following stable transfection of a steroid receptor.
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PMID:Hormonal regulation of cathepsin D following transfection of the estrogen or progesterone receptor into three sex steroid hormone resistant cancer cell lines. 195 26

The effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on the growth of estrogen-responsive MCF-7 human breast cancer cells in the presence of 17 beta-estradiol was determined. After treatment with 17 beta-estradiol (1 nM), TCDD (10 nM) and 17 beta-estradiol (1 nM) plus TCDD (10 nM) the cells were monitored daily for cell growth and DNA content for 7 days. The results showed that TCDD inhibited cell proliferation and DNA content of untreated cells and inhibited the 17 beta-estradiol-stimulated cell proliferation and increase in cellular DNA content. In contrast, TCDD did not effect the growth of estrogen non-responsive MDA-MB-231 human breast cancer cells. TCDD (0.1-10 nM) also caused a concentration-dependent decrease in the 17 beta-estradiol-induced proliferation in MCF-7 cells. The effects of TCDD on the 17 beta-estradiol-induced secretion of the 52-kDa protein (i.e. procathepsin D), the 34-kDa (cathepsin D) and 160-kDa proteins were also determined in the MCF-7 and MDA-MB-231 human breast cancer cell lines. The levels of the proteins were determined by autoradiographic analysis of the incorporation of [35S]methionine into the secreted proteins which were separated by denaturing sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Treatment of MCF-7 cells with 17 beta-estradiol (1 nM), TCDD (10 and 100 nM) and 17 beta-estradiol (1 nM) plus TCDD (10 nM) resulted in levels of the 52-kDa protein which were 497, 63.6, 98.1 and 66.3%, respectively, of the corresponding levels observed in control (untreated) cells. Using the same concentrations, the levels of the 34-kDa protein secreted into the media were 372, 42.3, 64.0 and 43.8% of control values, respectively, and the corresponding levels of the 160-kDa protein were 381, 52.9, 71.2 and 76.6% of the control values, respectively. In contrast, treatment of MDA-MB-231 cells with 17 beta-estradiol (1 nM), TCDD (10 and 100 nM) and 17 beta-estradiol (1 nM) plus TCDD (10 nM) resulted in a 31-39% reduction in the secretion of the 52-kDa protein however these effects were not statistically different from the control values. In addition, the treatments did not cause any significant effects on the secretion of the 34- and 160-kDa proteins by MDA-MB-231 cells. These results clearly confirm and extend the range of antiestrogenic effects caused by TCDD in estrogen-responsive MCF-7 cells and indicate that the MDA-MB-231 cells are not responsive to the antiestrogenic effects of TCDD.
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PMID:Effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on cell growth and the secretion of the estrogen-induced 34-, 52- and 160-kDa proteins in human breast cancer cells. 227 56

It has been proposed that proteases secreted by cancer cells facilitate metastasis by degrading extracellular matrix. Estrogen receptor-positive breast cancer cells secrete a Mr 52,000 pro-cath-D under estrogen stimulation, whereas this protease is produced constitutively by estrogen receptor-negative cancer cells. We report on the degradation in vitro of extracellular matrix by purified Mr 52,000 cathepsin D (cath-D) and by conditioned media prepared from different cell lines. The purified Mr 52,000 pro-cath-D was autoactivated at pH 4.5 into a Mr 51,000 cath-D and found to digest the extracellular matrix of endothelial bovine corneal cells labeled with [3H]proline or [35S]methionine. Culture medium conditioned by estrogen-treated MCF7 cells had a similar effect at pH 4.5 but not at pH 7.4. Matrix degradation was totally inhibited by pepstatin. Other breast cancer cells (BT20, MDA-MB231, T47D cells, etc.) and other cancer cells also secreted a pepstatin-sensitive proteinase able to degrade extracellular matrix. By contrast, the U2 variant of MCF7 cells, which lacks the Mr 52,000 cath-D gene, and the nontumoral epithelial mammary cells secreted a negligible amount of this proteinase. In all conditioned media, the pepstatin-dependent extracellular matrix degrading activity was highly correlated to the Mr 52,000 cath-D concentration measured by immunoenzymatic assay. We conclude that the Mr 52,000 cath-D is the major acidic protease secreted by mammary cancer cells. We suggest that this protease may degrade basement membrane and consequently facilitate tumor invasion when it is released in an acidic microenvironment.
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PMID:In vitro degradation of extracellular matrix with Mr 52,000 cathepsin D secreted by breast cancer cells. 337 11

Using confocal fluorescence microscopy with a monoclonal antibody, we have localized the receptor for urokinase plasminogen activator (uPAR) in MDA-MB-231 human breast cancer cells migrating into a reconstituted basement membrane. Patchy and polarized uPAR immunoreactivity was found at the cell membrane, and strong staining was found both in the ruffled border or leading edge of the cells and at pseudopodia penetrating into the membrane. Intracellular uPAR staining was localized in the paranuclear region and in rounded granule-like structures; some of these were identified as lysosomes by double staining for uPAR and the lysosomal enzyme cathepsin D. Urokinase plasminogen activator (uPA) activity has previously been shown to play a role in migration of cells into basement membranes, and it has been proposed that uPAR also is involved in this process. uPA is known to be internalized and degraded after complex formation with the inhibitor PAI-1. Lysosomal uPAR immunoreactivity may result from concomitant internalization of the receptor.
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PMID:Confocal fluorescence microscopy of urokinase plasminogen activator receptor and cathepsin D in human MDA-MB-231 breast cancer cells migrating in reconstituted basement membrane. 751 99

Cathepsin D from normal (Hs578Bst) and malignant (MCF7, MDA-MB-231) breast cell lines has been characterized with regard to its kinetic properties, activity levels, precursor and processed M(r) forms, and isoform composition. Normal cell cathepsin D appears to have a more neutral pH optimum (pH 3.5) than the cancer cell line (pH 3.0-3.2) and greater activity between pH values of 4.0 to 4.5. The two cancer cell lines have approximately 1.5 to 2.0-fold increased total acid protease activity and 2 to 3-fold increased pepstatin-inhibitable protease activity (i.e. cathepsin D) when compared to the normal breast cell line. Western blotting indicates that a major processed form of cathepsin D for all three cell lines occurs at 31 kDa. The cancer cell lines contain significant amounts of cathepsin D precursors of 47 and 42 kDa whereas the normal cell line contains little if any of these precursors. Isoelectric focusing indicates that the normal cell line contains approximately 50% of its total acid protease activity at pIs above 4 whereas the cancer cell lines contain 70-80% of their protease activity at such pIs. In addition, the cancer cell lines contain two to three major isoforms between pIs of 5.5 and 6.3 which were not present in the normal cell line. The isoforms from pI values of 5.5 to 7.3 for all three cell lines are 100% pepstatin-inhibitable. In addition, Western blot analysis indicates that these isoforms contain the processed 31 kDa form of cathepsin D. The combined results indicate that the two breast cancer cell lines are similar to biopsied malignant breast tissue in exhibiting altered acid protease isoform profiles with increased relative amounts of pepstatin-inhibitable and immunoreactive acid protease activity (cathepsin D) compared to normal breast tissue or cells.
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PMID:Western blotting and isoform analysis of cathepsin D from normal and malignant human breast cell lines. 764 43

Human metastatic breast cancer cells in culture contain large acidic vesicles (diameter 5-10 microns) in which endocytosed extracellular matrix can be digested by activated lysosomal proteinases such as cathepsin D (P. Montcourrier et al. (1990). Cancer Res. 50, 6045-6054). We examined these large compartments by transmission electron microscopy, measured their pH by video-enhanced epifluorescence using FITC-dextran, and studied their functional significance. Their presence in metastatic MDA-MB231 cells was found to be correlated with an increased ability of cells to migrate through Matrigel and a high cathepsin D concentration. These cells were able to phagocytose 1.24 microns diameter latex beads and fluorescence Matrigel and incorporate this extracellular material into large acidic vesicles. This indicated that large acidic vesicles were associated with both phagocytosis and invasion, and are heterophagolysosomes rather than autophagosomes. Large acidic vesicles were actively acidified with a H(+)-ATPase vacuolar pump specifically inhibited by bafilomycin A1, and reached pH values (< 4), lower than the lysosomal value (pH approximately 5) in the same cells and in specialized phagocytotic cells such as macrophages. We conclude that the phagocytotic activity of breast cancer cells, associated with high cathepsin D expression, and high acidification potential, characterize cancer cells that have migrated through Matrigel.
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PMID:Characterization of very acidic phagosomes in breast cancer cells and their association with invasion. 784 58

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

Receptors for urokinase-type plasminogen activator (uPAR) are present on the surface of many cell types and appear to be the key determinant controlling extracellular proteolysis catalyzed by the urokinase-type plasminogen activator (uPA). Receptor-bound uPA may be inhibited by the specific inhibitors PAI-1 and PAI-2, and the complex thus formed may subsequently be internalized and degraded in lysosomes. Biochemical evidence has recently indicated that also uPAR is internalized with the uPA/uPAI complex. We report here the subcellular localization of uPAR and cathepsin D in the MDA-MB-231 human breast cancer cell line studied by immuno-electron microscopy of ultrathin cryosections using single or double immunostaining techniques. Cell surface uPAR was preferentially localized at cell-cell junctions; cytoplasmic uPAR was inside large vesicles of different morphology and in flat Golgi saccules. A number of vesicles also contained cathepsin D. The uPAR was exclusively membrane-bound at the cell surface and in cytoplasmic vesicles without cathepsin D. In lysosomal vesicles with both cathepsin D and u-PAR, uPAR was probably degraded as it was observed in the luminal contents.
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PMID:Immunoelectron microscopy of the receptor for urokinase plasminogen activator and cathepsin D in the human breast cancer cell line MDA-MB-231. 801 5

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