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: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

122 patients with primary breast cancer were followed-up for a median of 4.6 years after surgery. The concentration of cathepsin D in tumour cytosol was strongly related to both metastasis-free survival and disease-free survival and was independent of nine conventional prognostic indices. Cathepsin D assay may prove particularly useful in identifying women who, though without lymph node involvement at presentation, are at high risk of metastatic disease.
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PMID:Cathepsin D: an independent prognostic factor for metastasis of breast cancer. 257 46

The precursor of cathepsin D, a lysosomal acidic protease, is secreted by human breast cancer cells, where its synthesis is specifically induced by estrogens and growth factors. In this study, we investigated the hormonal regulation of cathepsin D and its mRNA in uterine cells. In the Ishikawa endometrial cancer cell line, epidermal growth factor (EGF) increased the level of cathepsin D and its mRNA 2- to 3-fold. Although expression of the transiently transfected estrogen-responsive recombinant (Vit. tk. CAT) and the endogenous progesterone receptor was markedly increased by estradiol in Ishikawa cells, estradiol did not alter the level of cathepsin D or its mRNA. The progestin R5020 induced the expression of the LTR sp65 CAT, which contains the progesterone-responsive element of the MMTV but it too was without effect on cathepsin D. By contrast, the expression of cathepsin D gene, in normal rat uterus, was increased by R5020 but not by estradiol. We conclude that cathepsin D gene expression is regulated differently by sex steroid hormones in endometrial and breast cancer cell lines, whereas it is similarly induced by EGF in these cells.
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PMID:Differential regulation of cathepsin D by sex steroids in mammary cancer and uterine cells. 261 33

Pro-cathepsin D is overexpressed in breast cancer cells compared to normal mammary epithelial cells. Moreover, its processing and maturation are altered resulting in increased secretion. In estrogen-responsive breast cancer cell lines such as MCF7 cells and ZR75-1 cells, the 2.2-kb cathepsin D mRNA is accumulated specifically by estrogens and growth factors. Estrogen regulation is mostly transcriptional, while growth factors stabilize the mRNA and act indirectly. In estrogen-receptor-negative cell lines, there is a constitutive high production of cathepsin D mRNA. Moreover in uterine cells, progesterone is the inducer rather than estrogen, indicating the complexity of regulation by steroids, depending on the tissue. The increased production of cathepsin D appears to be correlated with the aggressiveness of the tumour, as shown by retrospective clinical studies, suggesting a role in mammary carcinogenesis.
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PMID:Overexpression and hormonal regulation of pro-cathepsin D in mammary and endometrial cancer. 262 16

The polypeptide patterns of MCF-7 human breast cancer cells (MCF-7gpt) and a stably v-H-ras-transfected subclone (MCF-7ras) have been analyzed following estradiol treatment. Since both estradiol and v-H-ras transfection increase tumorigenicity of MCF-7 cells, this study was designed to ascertain if specific changes in polypeptides were common in both treatments. Separation of cellular and secreted polypeptides was accomplished by 2-dimensional polyacrylamide gel electrophoresis, and the consequent patterns were analyzed with computer assistance. Estradiol treatment of the MCF-7gpt cells reduced the number of differences found in the polypeptide patterns between MCF-7gpt and MCF-7ras. Twelve cellular polypeptides were consistently modulated by either estradiol or v-H-ras, with four polypeptides clearly affected in the same way by both treatments. Polypeptides Gchc-0845 (Mr 54,000, pI 6.9) and Gchc-0902 (Mr 52,000, pI 6.3) were suppressed by estradiol and v-H-ras, while Gchc-1240 (Mr 34,000, pI 4.4) and Gchc-1396 (Mr 23,000, pI 5.3) were induced by estradiol and v-H-ras. Sixteen secreted polypeptides were altered by at least 2-fold subsequent to estradiol treatment or v-H-ras transfection. Transfection with v-H-ras had a greater effect than estradiol, stimulating the secretion of eight polypeptides and suppressing the secretion of seven polypeptides compared to estradiol which increased secretion of five polypeptides and decreased secretion of an additional three polypeptides, respectively. Synergistic effects by estradiol and v-H-ras were noted for three polypeptides. The secretion of Gcls-175 (Mr 50,000, pI 5.7) and Gcls-320 (Mr less than 14,000, pI 3.6, p-S2) was increased, while the secretion of Gcls-112 (Mr 76,000, pI 6.9) was decreased. Opposing effects of estradiol and v-H-ras were seen for seven polypeptides including the Mr 48,000 derivative of the Mr 52,000 protein (cathepsin D). These studies support the possibility that an extremely few, but specific polypeptides are regulated in association with quite diverse tumorigenic stimuli in MCF-7 human breast cancer cells.
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PMID:Secreted and cellular polypeptide patterns of MCF-7 human breast cancer cells following either estrogen stimulation or v-H-ras transfection. 264 87

After isolating monoclonal antibodies specific for the 52-kDa precursor of cathepsin D (cath-D), which is secreted in excess in both hormone-dependent and hormone-independent breast cancer, we developed a two-step double-determinant immunoenzymometric assay that is specific for this pro-enzyme. The assay combines the use of a monoclonal antibody specific for the precursor and bound to microtiter plates, and a second antibody directed against a smaller processed form of the mature enzyme, coupled to alkaline phosphatase. The specificity of the assay relies on separate and sequential additions of the antigen and the conjugated second antibody. It allows rapid measurement of the analyte in plasma and cytosols of normal and neoplastic mammary tissues, with a detection limit of 5 fmol and a maximal interassay coefficient of variation of 9%. This assay is particularly useful for tissue cytosol samples where the pro-enzyme form co-exists with large quantities of the mature processed forms of the enzyme. Comparative assays of 52-kDa pro-cath-D and total cath-D in cytosols of breast cancers and benign mastopathies indicate that the present assay better discriminates between benign and cancerous mammary tumors.
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PMID:A two-site immunoenzymometric assay of 52-kDa pro-cathepsin D, and its use in human breast diseases. 264 58

Breast growth and development is influenced by oestrogens and the growth of many breast cancers is driven by oestrogens, an effect which is utilised in the endocrine treatment of breast cancer. Oestrogens act by binding to the oestrogen receptor, a specific protein which in turn binds to specific regulatory regions of DNA, thereby altering gene expression. The effects of oestrogens may be mediated by growth factors and other substances under oestrogen regulation. Oestrogen receptor status in breast tumours can be determined by cytosolic radioligand binding assays, enzyme linked immunoassay, immunohistochemistry and measurement of messenger RNA levels. Tumour oestrogen receptor content is an established but not absolute predictor of both response to endocrine therapy and prognosis in breast cancer. Paradoxically, a small proportion of apparently oestrogen receptor negative tumours do respond to endocrine therapy, perhaps reflecting expression of low and unmeasurable levels of receptor or tumour heterogeneity with respect to receptor expression. A larger proportion of oestrogen receptor positive tumours unexpectedly fail to respond to endocrine therapy; in these cases it is possible that oestrogen receptor has become dissociated from the transcriptional and translational events which it normally regulates. Determination of levels of expression of substances regulated by oestrogens can provide information regarding the functional integrity of the oestrogen response pathway and such substances include the progesterone receptor, plasminogen activator, cathepsin D and a variety of messenger RNA sequences.
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PMID:Oestrogen receptor and oestrogen regulated proteins in human breast cancer: a review. 268 40

The effects of tamoxifen, three of its in vivo metabolites and 3-hydroxytamoxifen on cellular proliferation and the induction of four oestrogen-regulated RNAs (pNR-1, pNR-2, pNR-25 and cathepsin D) have been measured in MCF-7 breast cancer cells in phenol red-free culture medium. Tamoxifen and 3-hydroxytamoxifen acted as partial oestrogens to stimulate cell growth and the levels of the pNR-2 and pNR-25 RNAs. They were full oestrogens for the induction of cathepsin D RNA and induced the pNR-1 RNA above the level found in oestrogen-treated cells. N-Desmethyltamoxifen and 4-hydroxytamoxifen behaved like tamoxifen except that N-desmethyltamoxifen did not induce the pNR-2 RNA and was only a partial oestrogen for the induction of cathepsin D RNA, and 4-hydroxytamoxifen did not induce the pNR-2 or pNR-25 RNAs. In the presence of oestradiol, the four anti-oestrogens prevented the stimulation of growth and reduced (pNR-2 and pNR-25) or increased (pNR-1) the RNA levels to those present in MCF-7 cells treated with the anti-oestrogen alone. In contrast, for cathepsin D RNA levels there was a synergistic effect of the anti-oestrogens and oestradiol. The concentration at which each anti-oestrogen was effective was related to its affinity for the oestrogen receptor. Metabolite E was a full oestrogen for the induction of cell proliferation and the oestrogen-regulated RNAs. pNR-25 and pNR-2 RNA levels correlated most closely with effects on cell proliferation. These RNAs are therefore potentially the most useful for predicting the response of breast cancer patients to tamoxifen therapy.
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PMID:Oestrogenic activity of tamoxifen and its metabolites on gene regulation and cell proliferation in MCF-7 breast cancer cells. 273 7

In human mammary cancer cells, pro-cathepsin D (pro-Cath-D) is induced by estrogens and 50% of it is secreted. To determine whether its secretion is characteristic of mammary cells or transformed cells, we compared its production, processing, and glycosylation in primary cultures of normal mammary epithelial cells to those found in breast cancer cell lines. The cytosolic concentration of total cathepsin D (precursor and mature enzyme) measured by enzyme-linked immunosorbent assay was 8 times higher in cancer cells. Its mRNA level estimated by Northern blot analysis was 8 to 50 times higher and its secretion was 30 times higher in cancer cells. Using pulse-chase labeling, the cellular processing of pro-Cath-D was altered in hormone-dependent and -independent breast cancer cells in comparison to normal cells. This alteration resulted in a lower accumulation of mature enzyme, while the secretion and cytoplasmic accumulation of pro-Cath-D was greater in breast cancer cells than in normal cells. NH4Cl increased secretion of the proenzyme in normal cells but not in cancer cells. The secreted proenzyme was markedly heterogeneous and had a more acidic pI in MCF7 cells than in normal mammary cells. These acidic forms disappeared following endo-beta-N-acetylglucosaminidase H treatment indicating that the structural difference between pro-Cath-D of normal and of cancer mammary cells was located on high mannose or hybrid N-linked oligosaccharides. This difference may be responsible for the altered routing of the pro-Cath-D in breast cancer cells.
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PMID:Increased secretion, altered processing, and glycosylation of pro-cathepsin D in human mammary cancer cells. 273 31

The Mr 52,000 cathepsin D is the precursor of a lysosomal protease secreted in excess by breast cancer cells. This protease can degrade extracellular matrices and proteoglycans and is induced by estrogens in estrogen receptor-positive breast cancer cell lines. In a 4- to 6-yr retrospective cohort study, the concentration of the total cathepsin D (precursor plus intermediate and mature chains) was assayed in cytosols of primary tumors from 242 pre/perimenopausal and 154 postmenopausal breast cancer patients in a solid-phase immunoassay using two specific monoclonal antibodies. Patients were initially divided into groups with low, intermediate, or high concentrations of cathepsin D corresponding to the quartiles of the overall distribution. Using these groupings, the level of Mr 52,000 cathepsin D was not significantly associated with the recognized prognostic factors of age, lymph node involvement, tumor size, and/or grade of anaplasia. A significant association was found between cathepsin D concentrations and estrogen receptor status only among pre/perimenopausal patients. Receptor-positive tumors (greater than or equal to 10 fmol of estrogen receptor/mg of cytosol protein) had a significantly greater proportion of patients with high Mr 52,000 cathepsin D concentrations. Patients with high Mr 52,000 cathepsin D concentrations (greater than 78 pmol/mg for pre/perimenopausal and greater than 24 for postmenopausal patients) have shorter recurrence-free survival (P = 0.06 for pre/peri- and P = 0.039 for postmenopausal patients) and have a trend toward shorter overall survival (P = 0.30 and P = 0.089 for pre/peri- and postmenopausal groups, respectively). In multivariate analysis, Mr 52,000 cathepsin D status was found to be an independent prognostic factor for recurrence-free survival of about the same import as lymph node status for both menopausal groups. This first retrospective study demonstrates that the level of Mr 52,000 cathepsin D in cytosol of primary breast cancer biopsies is an independent prognostic factor in predicting relapses in both pre/peri- and postmenopausal patients.
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PMID:Association between high concentrations of Mr 52,000 cathepsin D and poor prognosis in primary human breast cancer. 279 Aug 15

The pro-cathepsin D of Mr 52,000 is regulated by estrogens via the estrogen receptor (RE) and is secreted by breast cancer cells in vitro. In an attempt to predict the hormone responsiveness of breast cancer in vivo, we have assayed total 52K cathepsin D and its precursor in the primary breast cancer cytosol of 36 patients treated before surgery with 30 mg of tamoxifen daily for 1 to 5 weeks (average, 3 weeks). Compared to a similar control population, total 52K cathepsin D was increased by tamoxifen (P = 0.02) but less so than its precursor (P less than 0.001). Furthermore, 45% of the RE-positive tumors from tamoxifen-treated patients had a higher cathepsin D precursor concentration than the same type of tumor from control patients, or than RE-negative tumors from tamoxifen-treated patients. This 3-week challenge test was probably too short to avoid partial estrogenic activity of tamoxifen (flare) and the authors infer that longer time of treatment would decrease rather than increase the concentration of cathepsin D in the RE-responsive tumors. However, two cancers from patients with relapses after prolonged tamoxifen treatment (greater than 6 months) also had high concentrations of 52K cathepsin D and its precursor. The authors conclude that the concentration of cathepsin D and its precursor in breast cancer cytosol can be increased by short-term tamoxifen treatment, suggesting that these tumors are estrogen responsive.
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PMID:Tamoxifen treatment increases the concentration of 52K-cathepsin D and its precursor in breast cancer tissue. 292 Mar 55


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