UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based on the clinicopathological classification of distinct stages of tumor progression in the melanocytic system, we have investigated the in vitro growth patterns and requirements of normal melanocytes and melanocytes isolated from different lesions of melanoma progression. Normal melanocytes depend on a combination of insulin-like growth factor (IGF-I) or insulin, 12-O-tetradecanoyl phorbol-13-acetate (TPA), alpha-melanocyte stimulating hormone (alpha-MSH), and basic fibroblast growth factor (bFGF) for in vitro proliferation. Nevus cells display a reduced need for TPA and are largely independent of bFGF. Both melanocytes and nevus cells have a finite lifespan in vitro and show no spontaneous transformation, whereas melanoma cells can be grown indefinitely in vitro. Cells from primary melanomas require only IGF-I or insulin for continuous growth, and metastatic melanoma cells can proliferate in base medium without addition of any growth factors or proteins. This progressive growth autonomy is paralleled by an increased competence for endogenous growth factor production. Among these growth factors, bFGF and melanoma growth-stimulatory activity (MGSA) act in an autocrine fashion. Melanoma-derived growth factors without apparent autocrine function, such as platelet-derived growth factor A and B (PDGF-A and PDGF-B) and transforming growth factor-alpha (TGF-alpha), might still be important for melanoma growth by stimulating surrounding normal fibroblasts, endothelial cells, or keratinocytes to secrete growth-promoting factors. The significance of growth factors such as transforming growth factor-beta (TGF-beta) and melanoma-inhibiting activity II (MIA II), which have a potentially negative autocrine function, remains unknown. The successful propagation of melanocytic cells of all stages of melanoma progression has yielded valuable insight into the mechanisms of growth regulation and malignant transformation.
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PMID:In vitro growth patterns of normal human melanocytes and melanocytes from different stages of melanoma progression. 144 12

Transin is an oncogene-inducible protein which has been shown to be the rat homologue of an extracellular matrix-degrading metalloproteinase known as stromelysin. The activity of transin/stromelysin is regulated at several levels: (1) at the transcriptional level, it is positively regulated by oncogenes, tumor promoters, and certain growth factors, and is negatively regulated by several agents including glucocorticoids and transforming growth factor-beta; (2) the protease activity is produced by processing of an inactive precursor form to an active enzyme; and (3) total protease activity is modulated by activity of tissue inhibitors of metalloproteinases (TIMPs). The association of transin/stromelysin expression with tumor progression suggests that it plays an important role in cancer.
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PMID:Stromelysin/transin and tumor progression. 210 88

Retinoids (vitamin A and its natural and synthetic derivatives) have shown potential as chemopreventive agents, and diets poor in vitamin A and/or its precursor beta-carotene have been linked to an increased risk of cancer at several sites including the cervix. Human papillomavirus (HPV) plays an important role in the etiology of cervical cancer. We have developed an in vitro model of cancer progression using human keratinocytes (HKc) immortalized by HPV16 DNA (HKc/HPV16). Although immortal, early passage HKc/HPV16, like normal HKc, require epidermal growth factor (EGF) and bovine pituitary extract (BPE) for proliferation and undergo terminal differentiation in response to serum and calcium. However, following prolonged culture, growth factor independent HKc/HPV16 lines that no longer require EGF and BPE can be selected (HKc/GFI). Further selection of HKc/GFI produces lines that are resistant to serum- and calcium- induced terminal differentiation (HKc/DR). HKc/DR, but not early passage HKc/HPV16, are susceptible to malignant conversion following transfection with viral Harvey ras or Herpes simplex virus type II DNA. We have investigated the sensitivity of low to high passage HKc/HPV16 and HKc/GFI to growth control by all-trans-retinoic acid (RA, an active metabolite of vitamin A). Early passage HKc/HPV16 are very sensitive to growth inhibition by RA, and in these cells RA decreases the expression of the HPV16 oncogenes E6 and E7. However, as the cells progress in culture they lose their sensitivity to RA. Growth inhibition by RA may be mediated through the cytokine transforming growth factor-beta (TGF-beta), a potent inhibitor of epithelial cell proliferation. RA treatment of HKc/HPV16 and HKc/GFI results in a dose-and time-dependent induction (maximal of 3-fold) in secreted levels of TGF-beta. Also, Northern blot analysis of mRNA isolated from HKc/HPV16 demonstrated that RA treatment induced TGF-beta 1 and TGF-beta 2 expression about 3- and 50-fold, respectively. We next studied the effect of TGF-beta 1 and TGF-beta 2 on the proliferation of early to late passage HKc/HPVa6, HKc/GFI and HKc/DR. While early passage HKc/HPV16 were as sensitive as normal HKc to growth inhibition by TGF-beta 1 and TGF-beta 2, the cells became increasingly resistant to TGF-beta during in vitro progression, with the proliferation of HKc/DR being virtually unaffected by TGF-beta 1 or TGF-beta 2 treatment. Overall, loss of growth inhibition by RA parallels loss of TGF-beta sensitivity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Progressive loss of sensitivity to growth control by retinoic acid and transforming growth factor-beta at late stages of human papillomavirus type 16-initiated transformation of human keratinocytes. 764 23

We established trophoblast cell cultures with extended lifespans by introducing into first trimester human trophoblasts the gene encoding simian virus 40 large T antigen. The transfected trophoblasts were characterized according to their expression of various morphological and functional markers. Both parental (HTR-8) and transfected (HTR-8/SVneo) lines were morphologically similar and positive for cytokeratin, confirming their epithelial (trophoblastic) identity. Whereas the parental cells senesced after 12-14 passages, the transfectants have been in culture for over 32 passages. Human chorionic gonadotrophin was detected only in the HTR-8/SVneo cells and not in the parental cells. Both lines required at least 5% serum in order to sustain growth in vitro and responded to transforming growth factor-beta (TGF-beta) with reduced [3H]-thymidine incorporation in a dose-dependent manner. Treatment with TGF-beta also resulted in decreased secretion of plasminogen activators (PAs) and reduced PA activity by both lines. Both cell lines secreted mostly 72-kDa type IV collagenase as determined by substrate gel zymography, but the level of secretion of this enzyme was not significantly affected by TGF-beta in either line. Even though both lines exhibited similar in vitro invasive abilities, only the invasiveness of the parental cells was reduced by TGF-beta. Neither parental or transfected cells were capable of growth in soft agar and no sign of tumor formation was evident more than 5 months after subcutaneous inoculation of the transfected cells into nude mice. These results indicate that apart from their ability to sustain prolonged growth in culture, the transfected HTR-8/SVneo cells share a number of phenotypic properties with the parental trophoblast cells. For this reason, these transfected trophoblasts may prove to be an important tool for the study of placental function and/or tumor progression.
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PMID:Establishment and characterization of first trimester human trophoblast cells with extended lifespan. 768 92

In previous studies we found that the immunosuppression seen in mice bearing Herpes virus type 2-transformed (H238) fibrosarcoma was likely to be due to tumor-derived transforming growth factor-beta (TGF-beta). In vitro experiments showed that interleukin-2 (IL-2) and antibodies against TGF-beta could significantly counteract TGF-beta-induced depression in lymphocytes. The present study was performed to determine if the administration of polyclonal anti-TGF-beta antibody and recombinant IL-2, alone or in combination, could inhibit H238 tumor progression in vivo and to investigate possible mechanisms of action. The tumor cells were injected s.c. at 1 x 10(6) cells/mouse and treatments were given 1-10 days post-injection. In phase I, a total of 25,000 units of IL-2 (5,000 units/injection) and/or 900 ng of anti-TGF-beta (100 ng/injection) were administered i.p. per animal. Phase II was conducted similarly, except that each mouse received a total of 127,500 units of IL-2, either with or without the same amount of antibody. No treatment-related toxicity was noted. Tumor volumes were monitored for 16-18 days after tumor implantation. The H238 tumors in treated mice from both both phases grew as rapidly as, or significantly faster than, in untreated controls. Significant enhancement of tumor growth was found in the groups given IL-2 as a single agent, regardless of total dose. The combination of the higher IL-2 dose with anti-TGF-beta resulted in more rapid tumor progression than in animals given the antibody alone. Relative spleen weights, peripheral blood leukocyte counts, and the chemiluminescent oxidative burst of phagocytes were significantly elevated in all tumor-bearing mice, whereas T cell response to mitogenic stimulation was depressed. However, the oxidative burst capacity of spleen (but not blood) cells and natural killer cell cytotoxicity were markedly lower in the treated groups compared to nontreated tumor-bearing controls. In contrast, plasma levels of tumor necrosis factor-alpha and IL-2 were substantially higher in the group given both modalities (phase II) compared to the other treated groups. These findings show that anti-TGF-beta antibody, both with and without low-dose IL-2 regimens, can be safely administered in vivo. However, tumor growth was not delayed by the treatment protocols used. The induction of hyporesponsiveness in certain cell types may account, at least partly, for the enhancement seen in tumor progression.
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PMID:Effects of anti-transforming growth factor-beta antibody and interleukin-2 in tumor-bearing mice. 780 55

The humoral interactions between three malignant glioma early-passage cell cultures and in vitro interleukin (IL)-1 alpha- and IL-2-activated autologous peripheral blood mononuclear cells (PBMC's) were investigated, employing standard and modified (separated by permeable membranes) mixed lymphocyte tumor cell (MLTC) cultures. In modified MLTC's, glioma cells clearly inhibit proliferation of PBMC's (up to 60%), whereas lymphokine-activated PBMC's enhance glioma cell growth up to 12-fold, as determined by 3H-thymidine incorporation assays. Glioma cells produce both stimulatory (IL-6) and inhibitory proteins (transforming growth factor-beta) for PBMC's. Lymphokine-activated PBMC's secrete IL-1 alpha, IL-2, IL-4, IL-6, interferon-gamma, and tumor necrosis factor-alpha, which may modulate glioma cell proliferation. None of these cytokines stimulated glioma cells as intensely as modified MLTC systems. These observations indicate that in vitro lymphokine-activated PBMC's, although suppressed by humoral glioma-derived factors, may enhance glioma cell proliferation with soluble factors secreted into the culture medium. The authors conclude that glioma-lymphocyte growth regulatory networks include stimulatory and inhibitory factors from both cell populations, which may modulate tumor progression. These observations may have relevance for adoptive immunotherapy in patients with gliomas.
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PMID:In vitro studies of cytokine-mediated interactions between malignant glioma and autologous peripheral blood mononuclear cells. 793 92

Human placental trophoblast invasion of the uterus is a highly controlled event. We had shown that transforming growth factor-beta (TGF-beta) produced in the pregnant uterus controls invasiveness and reduces proliferation of first trimester placental trophoblasts in vitro. The anti-invasive effect of TGF-beta was due, at least in part, to induction of tissue inhibitor of metalloproteinases (TIMP)-1. In the present study we compared the effects of TGF-beta on proliferation ([3H]-TdR incorporation) and invasiveness (3-day Matrigel invasion assay) of JAR and JEG-3 choriocarcinoma cells vs normal first trimester human trophoblast cells. Transcripts of type IV collagenases (72- and 92-kDa enzymes, i.e., gelatinases A and B) and their inhibitors (TIMP-1 and TIMP-2) in these cells were measured by Northern analysis, and secretion of gelatinases and plasminogen activators (PAs) was evaluated by gel zymography. The results revealed that: (a) TGF-beta inhibited invasiveness and proliferation of normal trophoblast but not JAR and JEG-3 choriocarcinoma cells; (b) gelatinase A mRNA, expressed by the normal trophoblast and JAR cells, was upregulated in the presence of TGF-beta; (c) gelatinase B mRNA was not detected in the total RNA preparations of treated or untreated normal trophoblast or choriocarcinoma cells; (d) TGF-beta significantly upregulated the levels of TIMP-1 mRNA in the normal trophoblasts, but this transcript was very low in treated as well as untreated choriocarcinoma cells; TGF-beta also upregulated the 3.5-kb TIMP-2 message in the normal trophoblast; (e) gelatin zymography revealed a distinct band of approximately 68-kDa (gelatinase A) in the conditioned media of normal trophoblast and JAR cells; however, TGF-beta did not change the level of secretion of this gelatinase; and (f) the normal trophoblast also exhibited significant PA secretion (casein zymography) which was reduced in the presence of TGF-beta. PA secretion by the malignant trophoblast cells was low and unaffected by TGF-beta. These findings suggest that choriocarcinoma cells may become refractory to the mechanisms which control normal trophoblast proliferation and invasiveness. Concurrent resistance to antiproliferative and anti-invasive molecules such as TGF-beta may be highly relevant to tumor progression.
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PMID:Resistance of malignant trophoblast cells to both the anti-proliferative and anti-invasive effects of transforming growth factor-beta. 808 52

Members of the transforming growth factor-beta family, especially transforming growth factor-beta type 1, are among the most potent growth-inhibitory factors for epithelial, lymphohematopoietic, and neuroectodermal cells. Resistance to transforming growth factor-beta-mediated growth inhibition is frequently observed in cancers derived from these cell types. We review two important aspects of cancer cell resistance to transforming growth factor-beta: 1) It occurs progressively during the multistep process of tumor progression, and 2) it may encompass a potentially wide range of mechanisms involving transforming growth factor-beta-receptor alterations and cell-signaling defects. Stepwise increases in resistance to the growth-inhibitory action of transforming growth factor-beta may therefore sometimes be attributed to not one but several defects that are involved in transforming growth factor-beta activation, binding, and signaling. These factors accumulate within expanding tumor subclones during disease progression.
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PMID:Development of resistance mechanisms to the growth-inhibitory effects of transforming growth factor-beta during tumor progression. 842 84

Breast cancer is the second leading cause of cancer death in North American women. There is considerable need for reliable prognostic markers to assist clinicians in making management decisions. Although a variety of factors have been tested, only tumor stage, grade, size, hormone receptor status, and S-phase fraction are used on a routine basis. The cell cycle is governed by a family of cyclin-dependent kinases (cdks), which are regulated by associated cyclins and by phosphorylation. p27Kip1, a cyclin-dependent kinase inhibitor, regulates progression from G1 into S phase by binding and inhibiting cyclin/cdks. p27Kip1 protein levels and/or activity are upregulated by growth inhibitory cytokines including transforming growth factor-beta (TGF-beta) and, thus, provide an important link between extracellular regulators and the cell cycle. Loss of p27Kip1, a negative cell-cycle regulator, may contribute to oncogenesis and tumor progression. However, p27Kip1 mutations in human tumors are extremely rare. We have demonstrated by immunohistochemistry that p27Kip1 protein levels are reduced in primary breast cancers and that this is associated with tumor progression in both in situ and invasive lesions. This was confirmed by western analysis, reflected in increased G1/S-phase cyclin-dependent kinase activities and shown to be regulated posttranscriptionally by in situ hybridization. Furthermore, on multivariate analysis, low p27Kip1 is a predictor of reduced disease-free survival. This simple and reliable immunohistochemical assay may become a routine part of breast cancer evaluation and may influence patient management.
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PMID:Decreased levels of the cell-cycle inhibitor p27Kip1 protein: prognostic implications in primary breast cancer. 901 30

This review focuses on the possible role of transforming growth factor-beta isoforms 1-3 (TGFbeta) in prostate cancer. TGFbeta1 appears to inhibit the cellular proliferation of normal prostate cells. Surprisingly, TGFbeta1 is overexpressed in prostate cancer. To help explain this apparent paradox, it has been revealed that with tumor progression, prostate cancer cells acquire reduced sensitivity to the growth-inhibitory effects of TGFbeta1. Aberrations of the TGFbeta1 signaling pathway at the prereceptor, receptor, or postreceptor level may lead to prostate cancer cell resistance to TGFbeta1 growth inhibition. Indirectly, elevated levels of TGFbeta1 may induce host effects that may be beneficial to prostate tumor growth by suppressing the immune system, promoting angiogenesis and extracellular matrix formation, and enhancing metastatic potential. Consequently, TGFbeta1 appears to be important in prostate carcinogenesis and tumorigenicity. TGFbeta2 and TGFbeta3 are only briefly presented as very little is known about their role in prostate cancer.
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PMID:Transforming growth factor-beta and prostate cancer. 911 51

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