UMLS:C0006142 - FACTA Search

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

The new antiestrogen Droloxifene has a 10-60-fold higher binding affinity to the estrogen receptor (ER) compared to the related compound Tamoxifen. A similar relationship was found in growth inhibition studies which showed that Droloxifene inhibited the different ER positive human breast cancer cells more effectively than Tamoxifen, predominantly in drug concentrations which are found in humans during therapy. As another consequence of the high stability of the complex formed by Droloxifene binding to the ER, intermittent exposures with clinically relevant concentrations of Droloxifene brought about effective growth inhibition of human ER positive tumor cells even after short-term application. Droloxifene was found, like Tamoxifen, to block human breast cancer cells in G1-phase of the cell cycle. Moreover, cell-cycle data confirmed the superior growth-inhibiting potency of Droloxifene compared to Tamoxifen. Droloxifene was also found to effectively induce expression of the negative growth factor TGF-beta, to inhibit IGF-I stimulated cell growth and to prevent estrogen-stimulated proto-oncogene c-myc expression. Unlike Tamoxifen, Droloxifene is a potent inhibitor of protein biosynthesis in ER-positive breast cancer cells at physiologically relevant concentrations. Lower estrogenic and higher antiestrogenic effects on immature rat uterus indicate a higher therapeutic index for Droloxifene compared to Tamoxifen. In vivo, Droloxifene displayed increased growth inhibition of different tumors of animal (R3230AC and 13762) and human origin (T61). Furthermore, it was found that the two structurally similar drugs differ in their toxicologic characteristics in the following important respects: Droloxifene is devoid of any in vivo or in vitro carcinogenic or mutagenic effects, whereas Tamoxifen causes liver tumors in rats, induces DNA adduct formation in rats and hamsters and shows transforming activity in SHE-cells (Syrian hamster embryo fibroblasts). Considerably less toxicity and a lower level of intrinsic estrogenicity was observed even after maximum long-term exposure of different animal species to Droloxifene, in comparison with Tamoxifen. Therefore, it can be assumed that Droloxifene may represent an important step forward in the treatment of mammary carcinomas in women through its better tolerability and increased efficacy compared with Tamoxifen. For long-term adjuvant or preventive treatment of breast cancer, Droloxifene may well be the safer choice.
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PMID:Preclinical data for Droloxifene. 807 67

Gross cystic disease and breast cancer are hormonally induced diseases that may share a common biochemical environment conducive to abnormal proliferative responses. Breast cyst fluid samples were analyzed for specific growth factors and levels were compared with breast cancer risk. Growth factor profiles identified both women at increased breast cancer risk and subgroups of women with distinct clinical manifestations of gross cystic disease. Women at increased risk for breast cancer demonstrated in their breast cyst fluid lower levels of platelet-derived growth factor and transforming growth factor (TGF)-beta, compared to women at lower risk. The presence of multiple cysts was associated with increased mitogenic activity, increased epidermal growth factor (EGF) and TGF-beta breast cyst fluid levels, and recurrent cysts were associated with higher levels of EGF. Unique growth factor profiles were associated with each risk group or clinical state, suggesting that distinct proliferative environments, associated with different clinical outcomes, are present in the breast tissue of women with gross cystic disease.
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PMID:Growth factor profiles in breast cyst fluid identify women with increased breast cancer risk. 818 42

Transforming growth factor beta-1 (TGF-beta 1) has been proposed as a mediator of tumour growth in a number of tumours and cell lines including prostate, and in a recent study was shown to be up-regulated in the stroma of breast cancer tissue following treatment with the anti-oestrogen tamoxifen. Immunolocalisation of the intracellular form of TGF-beta 1 confirmed that the source of the stromal TGF-beta 1 was the peritumoral fibroblasts. We present here the results of a study in which five patients with hormonally unresponsive prostatic carcinoma and seven patients responding to a luteinising hormone-releasing hormone analogue had prostate biopsies taken before and during treatment. These were stained for TGF-beta expression prior to treatment and at either relapse or 3 months later respectively. Six of seven clinically responding tumours and three of five relapsed tumours showed up-regulation of extracellular TGF-beta 1, again primarily in the stroma, with no apparent up-regulation of intracellular TGF-beta 1, TGF-beta 2 or TGF-beta 3. These data illustrate that the epithelial growth inhibitor TGF-beta 1 can be induced by hormonal manipulation in prostate cancer in vivo, and may continue to be up-regulated even after relapse. This suggests that relapse of hormonally treated prostate cancer may be associated with a failure of the epithelium to respond to stromal TGF-beta 1.
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PMID:Induction of transforming growth factor beta in hormonally treated human prostate cancer. 828 94

Hypercalcemia of cancer is due to secretion of substances with parathyroid hormone (PTH)-like activity from tumours of the respiratory, gastrointestinal and urogenital tract as well as hematologic malignancies and breast cancer. PTH-related Protein (PTHrP) is secreted mainly from solid tumours and it has been recently recognized as being responsible for hypercalcemia mediated primarily via an increased renal reabsorption of calcium and secondly by an increased bone resorption. PTHrP-mRNA is expressed in a variety of normal tissues and has multiple physiologic and paracrine actions. Bone resorbing factors like the cytokines-lymphokines, interleukins, prostaglandins, TNF-alpha/TNF-beta, GM-CSF/G-CSF, TGF-alpha and TGF-beta are produced by certain solid and hematologic cancers and have also been implicated in tumour-induced hypercalcemia. The recently introduced PTHrP antagonists are hopeful therapeutic measures for the future.
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PMID:Hypercalcemia of cancer: an update. 835 38

Transforming growth factor alpha (TGF alpha) and Transforming growth factor beta-1 (TGF-beta 1) are growth regulatory for breast cancer cell lines in vitro and several studies have suggested that levels of the receptor for TGF alpha, the epidermal growth factor (EGFR) in tumour biopsies predict relapse and survival. We have examined the prognostic significance of TGF alpha, TGF-beta 1 and EGFR mRNA expression in a series of patients with primary breast cancer with a median follow up period of 60 months. In 167 patients the expression of TGF-beta 1 was inversely correlated with node status (P = 0.065) but not ER status, tumour size or menopausal status. Patients with high levels of TGF-beta 1 had a longer disease free interval with a significantly longer probability of survival at 80 months although the overall relapse free survival was not increased. EGFR mRNA expression was measured in 106 patients and was inversely correlated with ER status (P = 0.018). EGFR levels did not predict for early relapse or survival. TGF alpha mRNA levels were measured in 104 patients, no correlation was seen tumour size, node status, Er status, or clinical outcome.
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PMID:The prognostic significance of transforming growth factors in human breast cancer. 839 Feb 90

The transforming growth factors beta are a family of peptides which are involved in the regulation of cell growth and differentiation. It has been suggested that the loss of sensitivity to growth inhibition by endogenous TGF-beta may contribute to the process of carcinogenesis in epithelial systems. However, many breast cancer cells remain sensitive to the growth inhibitory effects of these peptides, suggesting that the local induction of TGF-beta could provide a pharmacological approach to chemoprevention. Triphenylethylene anti-oestrogens, synthetic progestins and retinoids all offer potential as chemopreventative agents. A common feature of their mechanism of action is the ability to locally increase the production of the transforming growth factors beta.
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PMID:The pharmacological manipulation of members of the transforming growth factor beta family in the chemoprevention of breast cancer. 846 78

We have examined the effect of transforming growth factor beta 1 (TGF-beta 1) overexpression in human breast cancer cell tumorigenicity in athymic mice. Estrogen-dependent MCF-7 cells were stably transfected with pSVTGF beta 1. A clone was isolated which overexpressed TGF-beta 1 mRNA and secreted > 10-fold more TGF-beta activity into the tissue culture medium. Similar to the parent line, the MCF-7/TGF-beta 1 cells were relatively insensitive to exogenous TGF-beta 1 and exhibited low levels of TGF-beta receptors. Clonogenicity in soft agarose, doubling time, morphology, and sensitivity to 17 beta-estradiol and the antiestrogen tamoxifen were not altered in the transfected cells. Inoculation s.c. of MCF-7/TGF-beta 1 cells in ovariectomized nude mice resulted in 100% tumor formation which was totally abrogated by i.p. administration of the neutralizing anti-TGF-beta 2G7 IgG2B. The parent cells formed tumors only after estrogen supplementation. By immunohistochemistry, higher levels of TGF-beta 1 protein were detected in MCF-7/TGF-beta 1 tumors than in estrogen-induced parent MCF-7 tumors. Administration of 1 microgram TGF-beta 1 i.p. daily for 3 weeks after tumor cell inoculation transiently supported estrogen-independent growth of parent MCF-7 tumors in castrated nude mice. These data indicate that overexpression of TGF-beta 1 in human breast cancer cells can contribute to their escape from hormone dependence.
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PMID:Transforming growth factor beta 1 can induce estrogen-independent tumorigenicity of human breast cancer cells in athymic mice. 846 57

Acidic protein extracts have been made from breast tumour specimens, collected at the time of primary surgery. The extracts were partially purified by gel filtration and then tested for transforming growth factor-beta activity in a reproducible cell 3H-thymidine incorporation assay. Purified TGF-beta causes a reproducible increase in NRK colony formation and inhibits incorporation of 3H-thymidine by mink lung cells. However, some of the breast cancer extracts were stimulatory in the mink lung lung assay implying that a mitogenic factor like epidermal growth factor (EGF) was co-purified. Fourteen out of thirty extracts were scored positive for TGF-beta in the NRK colony forming assay and these tumours presented at an earlier clinical stage and were predominantly well differentiated.
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PMID:Bioassay of transforming growth factor-beta activity in acidic protein extracts from primary breast cancer specimens. 851 58

Previously we have shown that tamoxifen (TAM) induces morphological and biochemical changes typical of apoptosis in oestrogen receptor (ER)-positive MCF-7 or ER-negative MDA-231 human breast cancer cells. In this study the effects of TAM on expression of transforming growth factor beta 1 (TGF-beta 1) were correlated with the effects on cell cycle kinetics and apoptosis. TAM had similar biphasic effects on both cell lines. Short-term (< 6 h) TAM incubation resulted in a slight decrease in TGF-beta 1 protein despite an increase in TGF-beta 1 mRNA and was associated with an increase in cells in S-phase. No apoptotic effects were noted. Longer (> or = 12 h) TAM incubation induced TGF-beta 1 protein (about 3-fold) and mRNA expression (about 2-fold) in both cell lines, and was associated with G1/G0 blockade and induction of apoptosis. The accumulation of TAM-induced TGF-beta 1 mRNA was increased by cycloheximide, but was not affected by 17 beta-oestradiol. Long-term incubation with TAM had no significant effect on TGF-beta 1 gene copy number. TAM-induced internucleosomal DNA cleavage was inhibited in both cell lines by the addition of an anti-TGF-beta 1 antibody. TAM has dose- and time-dependent effects on TGF-beta 1 expression associated with changes in cell cycle kinetics. These effects are independent of ER status and may be the result of a direct regulatory effect of TAM on TGF-beta 1 transcription. It also appears that induction of TGF-beta 1 plays an important role in TAM-induced apoptosis in breast cancer cells.
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PMID:Relationship between tamoxifen-induced transforming growth factor beta 1 expression, cytostasis and apoptosis in human breast cancer cells. 882 75

Loss of sensitivity to growth inhibition by transforming growth factor (TGF)-beta is a phenomenon often observed in human epithelial tumor cells and is linked to malignant progression. We tested a panel of estrogen receptor (ER)-positive and -negative breast cell lines for their sensitivity to TGF-beta and a related member of the TGF-beta superfamily, activin. Both TGF-beta-sensitive (MCF7, Hs578T, and BT20) and -resistant (two T47D variants, ZR75-1, MDA-MB231, and MDA-MB468) cell lines were found, with no strict correlation between ER content and sensitivity to TGF-beta. In contrast, all four ER-positive cell lines were inhibited by activin A, whereas the ER-negative lines were not. To examine whether resistance to TGF-beta and activin resulted from the absence of the corresponding receptors, mRNA expression of the types I and II receptors was studied. TGF-beta receptor II was not expressed in the two T47D variants and was low in ZR75-1 cells. Upon stable transfection of the TGF-beta receptor II in one of the T47D variants, sensitivity to TGF-beta 1 and TGF-beta 2 was restored with respect to inhibition of anchorage-dependent and -independent proliferation, indicating that other signal transduction components are functionally intact. Sensitivity to TGF-beta in the transfectants was dependent on the expression level of the newly introduced receptor. Resistance to activin in the ER-negative cell lines could be explained in BT20 and Hs578T cells, but not in MDA-MB231 and MDA-MB468, by low activin receptor expression. These results show that resistance to TGF-beta and activin is often, but not always, due to reduced expression of the signaling receptor in breast cancer cells. The activin resistance of ER-negative breast tumor cells may be involved in their increased malignancy compared with ER-positive cells.
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PMID:Resistance to transforming growth factor beta and activin due to reduced receptor expression in human breast tumor cell lines. 851 92

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