Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epithelium-to-mesenchyme transformation plays a key role in tissue remodelling in embryos since it allows cells from the primitive epithelia to migrate to other sites where they participate in the formation of new structures. A similar phenomenon may be involved in the detachment of malignant cells from neighboring primary tumor cells, which is a prerequisite to the invasion of neighboring tissues or the development of metastases. To test this hypothesis, an in vitro model using a rat bladder carcinoma cell line was developed. Cells exhibited epithelial features under standard culture conditions. After exposure to a soluble inducer (acidic FGF) or the specific extracellular matrix components (collagens), the cells acquired a fibroblastic phenotype, separated from one another, and started to move freely on the substrate. Inducers were found to act synergistically on the fibroblastic transformation of carcinoma cells and to promote the penetration of these cells into collagen gels.
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PMID:[Modulation of epithelial differentiation of cultured rat bladder carcinoma]. 229 Jun 98

A panel of tumor cell lines and clones was generated by selecting for different metastatic capacity in 3AM fibrosarcoma cells. These cell lines were exposed to substrata of various purified extracellular matrix (ECM) proteins and labeled in culture with [35S]methionine. Following analysis by two-dimensional polyacrylamide gel electrophoresis the profiles of total cellular proteins produced by the cell lines displaying different phenotypes were examined. The presence of a specific protein, p54, was related to the cellular metastatic potential, and the synthesis of p54 was influenced by growth on extracellular matrix components. The amount of p54 was minimal and non-inducible in tumor cell lines exhibiting two different phenotypes: (1) experimentally metastatic (EM) and (2) transformed, non-tumorigenic (NTT) cell types. In contrast, all of the five different cell lines capable of both spontaneous and experimental metastasis (SEM), produced p54 either constitutively or through induction by growth on ECM protein substrata of either laminin of fibronectin, but not collagen type IV. These data suggest that the p54 protein may be a unique biochemical marker associated with spontaneous metastatic cell types.
Clin Exp Metastasis
PMID:Expression of a specific protein in spontaneously metastatic fibrosarcoma cell lines and its enhanced synthesis by growth on laminin or fibronectin. 229 13

Experiments were performed to determine the relative effects of glycosaminoglycans and extracellular matrix components alone or in association with various substrates, including extracellular matrix, on the proliferation of rat rhabdomyosarcoma (RMS) cell lines of different metastatic potential and nontumorigenic rat myoblast L6 cells. The assays used various substrates: tissue culture plastic, type I and IV collagen, fibronectin, laminin and extracellular matrix deposited by corneal endothelial cells. In control experiments, tumor cells grew faster on fibronectin and extracellular matrix than on the other substrates, and their proliferation rate was decreased slightly by laminin. Collagens were growth-inhibitory only for the highly metastatic line. The proliferation rate of L6 myoblasts was not greatly affected by the different substrates. The addition of exogenous glycosaminoglycans to the culture medium modified cell proliferation on the various substrates. Heparin inhibited the growth of all the cell lines tested, independent of the substrate. When cultured on laminin substrate the proliferation rates of the cell lines were depressed by addition of heparan sulfate to the medium, and this effect was more pronounced in the metastatic RMS lines. Chondroitin sulfate and dermatan sulfate enhanced the growth rates of the tumorigenic cells when cultured on collagen type I surfaces. Hydrocortisone, which induces myogenic differentiation, decreased the cell proliferation rates of all the cell lines tested and intensified the inhibitory effects of heparin when added simultaneously to the culture medium. The results showed that glycosaminoglycans and other matrix components can affect the proliferation rates of rhabdomyosarcoma cell lines.
Clin Exp Metastasis
PMID:Effects of glycosaminoglycans and extracellular matrix components on metastatic rat rhabdomyosarcoma tumor and myoblast cell proliferation. 239 Aug 14

Digestion of primary breast cancers and their metastases with collagenase yields cell clusters which can be selectively isolated from stromal cells and from the less malignant-looking epithelium of the primary tumors by their failure to attach as rapidly to collagen gel. Continued passage in culture of one preparation of cell clusters has yielded a continuously growing cell strain, termed Ca2-83. This strain continues to grow mainly as cell clusters with doubling times of 10 to 14 days, although some clusters eventually adhere to plastic substrata. Two morphological extremes of cell were observed, smaller polygonal or cuboidal cells and larger, often-multinucleated cells which contain fat droplets. Cell clusters grew in a gland-like pattern similar to those of the original carcinoma and formed small nodules in 50% of recipient nu/nu mice. Both morphological forms of Ca2-83 in culture or in tumor nodules stained immunocytochemically with epithelial cell-specific antisera to epithelial membrane antigens and to human keratins but not to laminin or actin. Cultures of Ca2-83 failed to synthesize laminin under conditions where its synthesis was observed in a rat myoepithelial cell line. Ultrastructural analysis of the cell clusters has identified microvilli coated with epithelial membrane antigens and junctional complexes typical of secretory epithelia in both morphological forms, but no characteristics of myoepithelial cells or basement membranes were observed. The DNA content of the cultures increased in response to serum, a bovine pituitary fraction, and insulin. Numbers of cell clusters were also increased in the presence of culture medium exposed to preadipocytes, myoepithelial- or mesothelial-like cells/stromal cells, or to prostaglandin E2.
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PMID:Loss of production of myoepithelial cells and basement membrane proteins but retention of response to certain growth factors and hormones by a new malignant human breast cancer cell strain. 241 Jan 3

Mobilization of the capillary endothelium is one of the first events observed during angiogenesis, and the study of conditions that control or influence the mobilization of the endothelium in vitro has been assumed to offer information relevant to the understanding of angiogenesis in vivo. In vitro mobilization of the bovine capillary endothelium was substantially enhanced by addition of gangliosides to the culture medium. Optimal mobilization was obtained when the endothelium incorporated the gangliosides first and was then seeded on fibronectin anchored to collagen type I. Preincubation of the capillary endothelium with gangliosides, trisialoganglioside in particular, doubled the amount of fibronectin bound to the cells and enhanced the migration about 5-fold. 'Blockage' of ganglioside binding with cholera toxin or gamma-interferon substantially reduced migration. Rabbit corneas, treated in vivo with a variety of angiogenesis effectors to induce neovascularization, consistently showed an increase in sialic acid content just prior to the time the tissue would be penetrated by the capillaries. This finding was interpreted to indicate that an increment of the ganglioside content of the capillary endothelial cell membranes may play a determinant role in the mobilization of the capillary endothelium in vivo as shown here to take place in vitro. Since the formation of a tumor from a micrometastasis requires formation of new capillaries and highly metastasizing tumors very frequently have high levels of sialic acid on the cell surface, it is hypothesized that production and shedding of gangliosides from the surface of neoplastic cells may be a factor in promoting angiogenesis and metastatic growth.
Invasion Metastasis 1986
PMID:Interaction of gangliosides with fibronectin in the mobilization of capillary endothelium. Possible influence on the growth of metastasis. 242 14

Basement membranes found around tumor cells in nevocytic nevi, Spitz's nevi, and malignant melanomas were analyzed by electron microscopy and antibody staining for several basement membrane proteins. Nevocytic nevi and Spitz's nevi showed a distinct, occasionally discontinuous lamina densa regardless of whether they were located in junctional zones of the epidermis or within the dermis. All basement membranes around nests of aggregated nevus cells, however, lacked anchoring fibrils. This correlated with the absence of type VII collagen. In contrast, type IV collagen, laminin, and nidogen were present at the periphery of the nevus cell clusters in agreement with the presence of an intact lamina densa. Aggregated tumor cells in malignant melanomas were bordered by a lamina densa when located in a junctional position and lacked this structure when they had migrated into the dermis. This process was accompanied by a drastically reduced staining for collagen type IV and nidogen, whereas laminin was still detectable. Anchoring fibrils and their molecular correlate, type VII collagen, were consistently absent. These observations demonstrate major alterations in the composition of basement membranes around malignant melanomas, which can be an important factor for the invasive growth and formation of metastases of these tumors.
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PMID:Structure of basement membranes in malignant melanoma and nevocytic nevi. 249 91

In vitro attachment assays were carried out to assess adhesion between two basement membrane proteins, type IV collagen and laminin, and rat rhabdomyosarcoma (RMS) cell lines with different metastatic potentials. Whereas cells did not adhere to type IV collagen, adhesion to laminin appeared to be very sensitive as maximal adhesion was achieved in dose-response assays with only nanograms of laminin. Adhesion was mediated by interactions between coated laminin and cell surface components, probably receptors, but not endogenous laminin. Laminin-mediated adhesion of RMS cell lines was compared with that of the MCF-7 (human mammary carcinoma) and the L6 (rat myoblast) cell lines. In dose-response assays, RMS cell lines required 10 times less laminin to reach half-maximal attachment rates than MCF-7 and L6 cell lines. Two laminin fragments, P1 and E8, which are structurally and immunologically distinct as shown by alpha-helix content, SDS-PAGE and monoclonal antibody mapping, supported adhesion by RMS cells and L6 myoblasts, but MCF-7 adhered only to P1. This fragment was 10 times less active than laminin in RMS cell lines. Attachment in dose-response assays and adhesion inhibition studies by antibodies revealed that E8 accounted for the activity of laminin in RMS cell adhesion. Adhesion in the RMS cell lines was dominated by interaction with E8 regardless of metastatic potential.
Clin Exp Metastasis
PMID:Laminin-mediated adhesion in metastatic rat rhabdomyosarcoma cell lines involves prominent interactions with the laminin E8 fragment. 252 68

We examined the effect of medroxyprogesterone acetate (MPA) on secondary spreading of endometrial cancer. There was no significant difference in the adhering capacity of dispersed Ishikawa cells (derived from well-differentiated endometrial cancer) to a cell basement membrane matrix, fibronectin or laminin between cells treated with MPA, with cortisol, and without treatment. The adhering capacity of cells treated with cortisol to collagen type IV was higher than that without treatment. However, the adhering capacity was little affected by treatment with MPA. These results indicate that although cortisol may induce the initial process of metastasis by inducing the attachment of tumor cells to the basement membrane of vascular endothelium, MPA has no influence on the attachment, although it has a glucocorticoid action similar to that of cortisol. There was no significant difference in tumor angiogenesis factor (TAF) or fibroblast growth factor (FGF) activity of the tumor extract from Ishikawa cell colonies between cortisol-treated and control group. TAF or FGF activity of the MPA-treated group was lower than that of the control group. MPA may reduce the neovascularization in the terminal process of metastasis via the reduction of TAF and FGF produced by tumor cells, in spite of its glucocorticoid action.
Invasion Metastasis 1989
PMID:Effect of medroxyprogesterone acetate on secondary spreading of endometrial cancer. 252 39

The goal of this study has been to identify and characterize metalloproteinases from a highly metastatic human small cell lung cancer cell line. The cytosol isolated from NCI-H82 lung cancer cells propagated as solid tumors in nude mice contained a gelatinolytic enzyme that was subjected to ammonium sulfate precipitation, zinc chelate Sepharose column chromatography, anion exchange chromatography and gel permeation chromatography. This purification scheme resulted in a 280-fold enrichment of an active gelatin and type IV collagen-degrading enzyme. On gelatin zymography two bands of gelatinolytic activity were detected, corresponding to Mr of 75,000 and 63,000. Gelatinolytic activity was inhibited by metal chelators, tetracyclines, and serum. On immunoblotting using an affinity-purified polyclonal rabbit antibody to a peptide region of type IV collagenase, the tumor enzyme was identified as type IV collagenase. A second tumor metalloproteinase of Mr = 29,000, which degraded proteoglycan substrates, was also isolated.
Invasion Metastasis 1989
PMID:Gelatin-degrading type IV collagenase isolated from human small cell lung cancer. 254 76

Photodynamic therapy (PDT) involves the parenteral administration of a photosensitising agent with some selectivity for malignant tissue. When activated by light, usually from a laser, local tissue destruction occurs. The amount of tissue destruction is dependent on the concentration of the photosensitising agent in the tissue and the light energy delivered. By careful manipulation of laser energy and photosensitiser dosage true selective destruction of malignant tissue can be produced in experimental colon cancers with total sparing of normal colon although under these conditions, the extent of necrosis in the tumour is only 2-3 mm from the light source. In addition, PDT has been shown not to reduce the mechanical strength of the colon even if full thickness necrosis is produced in normal areas. In contrast, thermal full thickness laser damage of the colon considerably weakens the colonic wall and may cause perforation. Light microscopy with specific collagen stains and electron microscopy have shown that the submucosal collagen layer is preserved following PDT, but is destroyed by thermal laser therapy. An initial clinical trial of PDT has been performed in ten patients with inoperable tumours because of advanced metastatic disease or severe medical problems. PDT has been shown to be safe and some small colorectal cancers can be totally eradicated.
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PMID:Photodynamic therapy for colorectal disease. 265 42


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