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)

The human stromelysin 3 (STMY3) gene, a new member of the matrix metalloproteinase (MMP) gene family, may contribute to breast cancer cell invasion, and has been localized by in situ hybridization to the long arm of chromosome 22. As demonstrated using a panel of somatic cell hybrids, the STMY3 gene is in band 22q11.2, in close proximity to the BCR gene involved in chronic myeloid leukemia, but far from the (11;22) translocation breakpoint observed in Ewing sarcoma. This position differs from that reported on chromosomes 11 and 16 for the other MMP genes, suggesting that stromelysin 3 could be a member of a new MMP subfamily.
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PMID:Assignment of the human stromelysin 3 (STMY3) gene to the q11.2 region of chromosome 22. 163 18

An intact basement membrane (BM) is essential for the proper function, differentiation and morphology of many epithelial cells. The disruption or loss of this BM occurs during normal development as well as in the disease state. To examine the importance of BM during mammary gland development in vivo, we generated transgenic mice that inappropriately express autoactivating isoforms of the matrix metalloproteinase stromelysin-1. The mammary glands from these mice are both functionally and morphologically altered throughout development. We have now documented a dramatic incidence of breast tumors in several independent lines of these mice. These data suggest that overexpression of stromelysin-1 and disruption of the BM may be a key step in the multi-step process of breast cancer.
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PMID:Mammary gland tumor formation in transgenic mice overexpressing stromelysin-1. 749 84

To elucidate structure-function relationships of stromelysin-3, a putative matrix metalloproteinase originally identified at the tumor-stromal cell interface in breast carcinomas, the human cDNA was expressed in mammalian cells, and its products were isolated and characterized. In stably transfected cells, stromelysin-3 was recovered as a complex mixture of species ranging in size from approximately 20 to 65 kDa. Among these products, a major 45-kDa species with an N terminus of Phe98 and an intact C-terminal domain was identified as a true endopeptidase on the basis of its ability to cleave the bait region of alpha 2-macroglobulin between Phe684 and Tyr685, a site identical to that recognized by stromelysin-1. However, unlike stromelysin-1 or other members of the matrix metalloproteinase family, the mature form of stromelysin-3 was unable to hydrolyze a range of extracellular matrix molecules associated with either the basement membrane or interstitium. To probe for alternate substrates among tumor cell-derived products, purified stromelysin-3 was incubated with [35S]methionine-labeled medium conditioned by the breast cancer cell line, MCF-7. Under these conditions, a single, tumor cell-derived protein was hydrolyzed as assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Following anion-exchange chromatography and preparative gel electrophoresis, the stromelysin-3 substrate was identified by N-terminal sequencing as the serine proteinase inhibitor, alpha 1-proteinase inhibitor. Further studies demonstrated that stromelysin-3 rapidly destroyed the antiproteolytic function of alpha 1-proteinase inhibitor by cleaving the antiproteinase at a distinct site between Ala350 and Met351 within the reactive-site loop. Together, these data not only demonstrate that human stromelysin-3 acts as a powerful endopeptidase with a restricted substrate specificity distinct from all other matrix metalloproteinases, but also serve to identify serine proteinase inhibitors as potential physiologic targets at sites of extracellular matrix remodeling.
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PMID:Hydrolytic inactivation of a breast carcinoma cell-derived serpin by human stromelysin-3. 752 94

Stromelysin-3 (ST3) is a matrix metalloproteinase which is expressed in fibroblastic cells of most human invasive carcinomas and represents a potential new prognostic indicator. Expression of recombinant ST3 forms in Escherichia coli from cDNA constructs indicated that high levels of expression were achieved when the ST3 pro-domain was deleted. The putative mature form of ST3 thus produced and recovered from bacterial inclusion bodies was used to prepare monoclonal antibodies (MAbs) against ST3 by immunization of BALB/C mice. Ten hybridomas producing MAbs against ST3 were obtained and analyzed for their ability to detect endogenous ST3 in breast cancer and in conditioned media from human fibroblasts. One of these MAbs (5ST-4A9) was found to be suitable for the routine detection of ST3 on breast cancer tissue sections, thus opening the possibility to evaluate ST3 prognostic value in breast cancer using semi-quantitative immunohistochemistry.
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PMID:Characterization of monoclonal antibodies against stromelysin-3 and their use to evaluate stromelysin-3 levels in breast carcinoma by semi-quantitative immunohistochemistry. 759 7

Biological functions proposed for the ST3 and nm23 genes in tumour development and progression seem to be directly opposed. Stromelysin-3 (ST3) is a putative member of the matrix metalloproteinase family. ST3 has been implicated in the progression of epithelial malignancies, specifically with regard to an invasive (and therefore potentially metastasizing) phenotype. The nm23 gene, on the other hand, encodes a nucleoside diphosphate kinase which allegedly has a metastasis-suppressor-type function. It was therefore of interest to compare the expression of ST3 and nm23 in various surgically excised normal and neoplastic breast tissues. RNA was isolated from over 200 surgical specimens and studied by Northern blots. Normal breast tissues did not express ST3, and ST3 expression was detected in only 1 of 20 normal axillary lymph nodes. None of 7 fibroadenomas expressed ST3. In contrast, 60% of primary and metastatic breast carcinomas contained ST3-mRNA. The expression of ST3 was mainly confined to invasive carcinomas and was observed less frequently in pure ductal carcinoma in situ (DCIS) lesions. Our results support the suggestion that ST3 expression is related to the malignant process in breast cancer. The role of nm23 is far less clear-cut.
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PMID:Expression of stromelysin-3 and nm23 in breast carcinoma and related tissues. 802 74

Stromelysin-3 (ST3) is a putative new matrix metalloproteinase (MMP) which may play a role in the progression of human carcinomas, and exhibits unique structural and functional characteristics among the MMP family. The ST3 gene, which is generally not expressed at significant levels in benign breast tumors, has been found to be expressed in all invasive breast carcinomas tested so far. The gene is also expressed in some in situ breast carcinomas, which have a higher probability to become invasive. ST3 RNA and protein are specifically found in fibroblastic cells immediately surrounding the neoplastic cells, both in invasive and in situ breast carcinomas. The same expression pattern is observed in other types of human carcinomas, and the highest ST3 RNA levels are observed in tumors that exhibit high local invasiveness. The ST3 gene is also expressed in fibroblastic cells during the inflammatory phase of wound healing, which suggests that ST3 gene expression in stromal fibroblasts may be under the control of factors produced by inflammatory cells during wound healing, and by cancer cells during carcinoma progression. ST3 may thus represent a stroma-derived factor necessary for the progression of epithelial malignancies, and its manipulation may possibly be used to develop new anti-cancer agents.
Breast Cancer Res Treat 1993
PMID:Expression of the stromelysin-3 gene in fibroblastic cells of invasive carcinomas of the breast and other human tissues: a review. 843 74

In vitro analyses of basement membrane invasiveness employing Matrigel (a murine tumor extract rich in basement membrane components) have been performed on human breast cancer model systems. Constitutive invasiveness of different human breast cancer (HBC) cell lines has been examined as well as regulation by steroid hormones, growth factors, and oncogenes. Carcinoma cells exhibiting a mesenchymal-like phenotype (vimentin expression, lack of cell border associated uvomorulin) show dramatically increased motility, invasiveness, and metastatic potential in nude mice. These findings support the hypothesis that epithelial to mesenchymal transition (EMT)-like events may be instrumental in the metastatic progression of human breast cancer. The MCF-7 subline MCF-7ADR appears to have undergone such a transition. The importance of such a transition may be reflected in the emergence of vimentin expression as an indicator of poor prognosis in HBC. Matrix degradation and laminin recognition are highlighted as potential targets for antimetastatic therapy, and analyses of laminin attachment and the matrix metalloproteinase (MMP) family in HBC cell lines are summarized. Matrigel-based assays have proved useful in the study of the molecular mechanisms of basement membrane invasiveness, their regulation in HBC cells, and their potential as targets for antimetastatic therapy.
Breast Cancer Res Treat 1993
PMID:Molecular and cellular analysis of basement membrane invasion by human breast cancer cells in Matrigel-based in vitro assays. 843 79

The expression of the stromelysin 3 (ST3) gene, which encodes a putative matrix metalloproteinase, was studied during breast cancer progression. The ST3 gene is expressed in all invasive breast carcinomas, in a number of their metastases, and in some in situ carcinomas where the probability of detecting ST3 transcripts correlates with the known risk of these carcinomas to become invasive. ST3 RNA and protein were specifically detected in fibroblastic cells immediately surrounding the neoplastic cells in both primary and metastatic tumors. This expression pattern distinguishes the ST3 gene from other matrix metalloproteinase genes, most notably from the 72-kDa type IV collagenase gene, which can be expressed in fibroblastic cells distributed throughout the stroma of primary breast carcinomas. Furthermore, high levels of 72-kDa type IV collagenase, but not of ST3 transcripts, are detected in benign breast fibroadenomas. Interestingly, the urokinase and ST3 genes exhibit very similar patterns of expression in breast carcinomas, which suggests that their products may cooperate during cancer progression.
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PMID:Stromelysin 3 belongs to a subgroup of proteinases expressed in breast carcinoma fibroblastic cells and possibly implicated in tumor progression. 844 98

Invasion of cancer cells is the first step of metastasis. The invasive activity is thought to be dependent on the production of matrix metalloproteinases (MMPs). The transcription regulatory regions of MMP genes often contain binding sites for Ets and AP-1 transcription factors and they mediate oncogene- and growth factor-induced transcription of the genes. We recently isolated the cDNA encoding human E1AF, a new member of ets oncogene family. E1AF highly stimulated transcription from three different subclasses of MMP genes in transient expression assays. Here we show that transfection of the non-invasive human breast cancer cell line MCF-7 with the E1AF expression plasmid results in induction of invasive and motile activities, accompanied by an increase of 92 kD type IV collagenase (MMP-9) gene expression. Tumors derived from the E1AF transfectant were highly invasive and produced MMP-9. Expression of E1AF and MMP-9 genes was elevated in several invasive tumor cell lines. These results provide evidence for an important role of ets-related E1AF in tumor cell invasion.
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PMID:A single ets-related transcription factor, E1AF, confers invasive phenotype on human cancer cells. 857 Jan 99

It is a truism that a better understanding of the biology of breast cancer should lead to improvements in diagnosis and therapy. Despite this, our significantly improved grasp of breast cancer biology has had little direct therapeutic impact to date. The technologies used to treat breast cancer (surgery, radiation therapy, chemotherapy, and hormonal therapy) were in general developed decades ago. With the exception of the prognostic factor area, advances in biological knowledge have not translated into either new therapies or altered outcomes. Fortunately, this now appears to be changing. This paper will focus on three emerging areas in which the new biology is most likely to have a therapeutic impact. The first area involves growth factors and their receptors. It is now clear that the growth of breast cancer is regulated by growth factor receptors (eg, EGFR and Her-2/neu), and that their upregulation is associated with impaired prognosis. Growth factors and their receptors represent a promising therapeutic target, both alone and in combination with other standard agents. Recent evidence suggests that growth factors and their receptors may be important for regulating programmed cell death (apoptosis) in breast cancer. A second emerging area involves matrix metalloproteinases. Breast cancer invasion and metastasis involves and requires activation of enzymes capable of dissolving natural barriers to spread. The most heavily studied of these are the matrix metalloproteinases, for which considerable in vitro and in vivo evidence suggests an important role in breast cancer. The recent advent of compounds with matrix metalloproteinase inhibitory activity makes a therapeutic intervention against matrix metalloproteinases appear reasonable. In vivo laboratory evidence suggests that their use may occur in the very near future. A third emerging area revolves around the question of neoangiogenesis (new blood vessel formation) in breast cancer. Breast cancers (indeed, all solid tumors) are incapable of growth beyond a certain critical diameter without new blood vessel formation. Recent work has demonstrated that breast cancers produce angiogenic factors stimulating this new growth. Therapies aimed at blocking this stimulation, and preventing neovascularization represent a promising therapeutic target. Numerous agents capable of preventing new blood vessel formation have been discovered in the laboratory and are poised to enter clinical trials.
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PMID:Implications of the new biology for therapy in breast cancer. 861 50


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