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 influence of the novel anti-estrogen droloxifene on the insulin-like growth factor (IGF) system in plasma was studied in two groups of breast cancer patients receiving droloxifene 40 mg o.d. (group 1, n = 6) or 100 mg o.d. (group 2, n = 7). Fasting blood samples were obtained from all patients before treatment and after 3 months (group 1) or 6 months (group 2) on droloxifene treatment, except for two patients in group 2 from whom the second sample was obtained following 2 months on treatment when the drug was to be terminated due to progressive disease. Insulin-like growth factor (IGF)-I, insulin-like growth factor binding protein (IGFBP)-1, IGFBP-3 and pro-IGF-IIE (IGF-IIE) were measured by radioimmunoassay. In patients in group 1, plasma lGF-I levels decreased by a mean value of 20% (P < 0.05) on treatment with droloxifene, while IGFBP-1 increased by a mean value of 45% (P > 0.1). In group 2 we observed a 42% decrease in IGF-I during treatment (P < 0.025), while the level of IGFBP-1 increased by a mean value of 70% (P < 0.025). No significant effect on IGF-IIE or IGFBP-3 was noted in any of the groups. The change in plasma lGF-I and IGFBP-1 observed during treatment with droloxifene resembles what is found in patients treated with tamoxifen. As IGF-I is a potent mitogen for breast cancer cells in vitro, a decrease in the plasma level of this growth factor with an increase in the concentration of IGFBP-1 may contribute to the anti-tumour effects of droloxifene.
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PMID:Influence of droloxifene on plasma levels of insulin-like growth factor (IGF)-I, Pro-IGF-IIE, insulin-like growth factor binding protein (IGFBP)-1 and IGFBP-3 in breast cancer patients. 864 25

There is strong evidence to suggest that insulin and insulin-like growth factor (IGF)-I may be important for tumor growth. Both the insulin and IGF-I receptors (IGF-IR) are overexpressed in breast cancer, and antibody blockade of the IGF-IR inhibits the growth of some breast cancer cell lines. Furthermore, expression of an insulin receptor (IR) in a normal mammary epithelia] cell line causes insulin-dependent transformation. Functional inactivation of p53 is also very frequent in many tumors. In this paper, we investigated whether inactivation of p53 might be involved in the overexpression of the IR in malignancy, specifically breast cancer. We demonstrate a positive correlation between IR and IGF-IR levels and p53 overexpression in primary human breast malignancies. To examine possible mechanisms by which p53 may regulate IR gene expression, we show that p53 can repress the IR promoter and that a dominant-negative p53 (248Q) can de-repress the promoter in cells containing normal p53. The p53 effect was shown to be mediated by C/EBP and Sp1 transcription factors. We also documented that p53-null mice had elevated levels of Sp1, but not C/EBPalpha, and that insulin binding to liver extracts was increased compared to wild-type controls. These results suggest that p53 inactivation may lead to an up-regulation of genes, such as the IR, that are dependent on these transcription factors.
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PMID:Repression of the insulin receptor promoter by the tumor suppressor gene product p53: a possible mechanism for receptor overexpression in breast cancer. 866 14

Somatostatin analogues have been shown to suppress some hormones and growth factors involved in breast tumour growth and a direct in vivo and clinical antimumour effect has recently been reported. In our study the effects of tamoxifen, combined with a depot somatostatin analogue in 33 postmenopausal untreated breast cancer patients, have been evaluated. Blood samples were obtained before treatment, after 14 days and then monthly, in order to evaluate the behaviour of serum IGF-I, GH and somatuline levels. The drug combination resulted in a significant and synergistic reduction of plasma IGF-I concentration. No significant changes of serum GH were observed. 12.5% of patients exhibited a complete response and 37.5% a partial response for an overall objective response rate of 50% (95% CL 35-69%). The high remission rate reported, the absence of overlapping side effects between tamoxifen and somatuline and the synergistic activity on IGF-I suppression justify a further evaluation of the drug-combination.
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PMID:Somatuline (BIM 23014) and tamoxifen treatment of postmenopausal breast cancer patients: clinical activity and effect on insulin-like growth factor-I (IGF-I) levels. 866 48

Endocrine therapy is one of the principal treatment modalities of breast cancer, both in an adjuvant setting and in advanced disease. The T61 breast cancer xenograft described here provides an experimental model of the effects of estrogen treatment at a molecular level. T61 is an estrogen receptor positive tumor which was originally derived from a T1N0M0 invasive ductal cancer and has been carried as a serially transplanted xenograft in nude mice. T61 is a hormone sensitive tumor whose growth is suppressed by both estrogen and tamoxifen, in contrast to other estrogen receptor positive tumors such as MCF-7 which are stimulated by estrogen. Molecular studies have demonstrated that T61 expresses easily detectable levels of mRNA for a number of peptide growth factors, including transforming growth factor alpha (TGF-alpha) and insulin-like growth factors I and II (IGF-I and IGF-II), but not transforming growth factor beta-I (TGF-beta1). Of these, IGF-II is the only peptide whose expression is altered by endocrine therapy. Treatment of T61-bearing nude mice with physiologic doses of estrogen is accompanied by loss of IGF-II mRNA expression within 24 hours, and rapid regression of tumor. T61 tumor growth is also inhibited in animals treated with a monoclonal antibody which blocks binding of ligand to the IGF-I receptor, which mediates the mitogenic signal of bound IGF-II through autophosphorylation of its intracellular tyrosine kinase domain. These results demonstrate the utility of the T61 model in the study of the molecular mechanism of estrogen therapy in breast cancer, and suggest that in this system, modulation of a specific growth factor (IGF-II) by endocrine therapy can have profound effects on tumor growth.
Breast Cancer Res Treat 1996
PMID:The T61 human breast cancer xenograft: an experimental model of estrogen therapy of breast cancer. 873 8

1. Signal transduction pathways activated during growth of human breast cancer cells in tissue culture are reviewed. 2. Steroid hormones and growth factors stimulate similar mitogenic pathways and frequently modulate each other's activity. 3. A response common to estrogen, progestins and most polypeptide mitogens is induction of the nuclear transcription factors myc, fos and jun in early G1 phase of the cell cycle. 4. Some growth factors also stimulate cyclin D1, a regulatory protein responsible for the activation of cell cycle-dependent kinases in G1. 5. In addition, insulin, IGF-I and EGF activate tyrosine kinase receptors. 6. Several tyrosine phosphorylated proteins occur in human breast cancer cells, and include the EGF and estrogen receptors. 7. Cyclic AMP plays a critical role in breast cancer cell proliferation through the activation of protein kinase A, and it also modulates the activity of estrogen and progesterone receptors. 8. EGF is the only breast cell mitogen known to raise intracellular free calcium levels. 9. Calcium may play a dual role in breast cancer cell proliferation, activating both calmodulin-dependent processes and regulating cell membrane potential through the activation of potassium channels. 10. Potassium channel activity and cell proliferation are linked in breast cancer cells, the cell membrane potential shifting between a depolarized state in G1/G0 cells and a hyperpolarized state during S phase. 11. Activation of an ATP-sensitive potassium channel is required for breast cancer cells to undergo the G1/G0-S transition.
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PMID:Mitogenic signal transduction in human breast cancer cells. 874 51

Current treatment for disseminated prostate cancer, whether progressive or hormone-resistant, do not improve survival. Insulin growth factors (IGFs) are potent stimulants of prostate epithelial cells growth, their presence having been demonstrated in high quantities in several tumours such as lung, hepatoma, pheochromocytoma, malignant glioma and breast cancer. Local management of growth factors production could improve the results of second line therapy in hormone-resistant prostate cancer. Levels of IGF-I were determined by radioimmunoassay (RIA) in normal (n = 5), hyperplastic (n = 5) and tumoral (n = 8) prostate tissue. Presence of IGF-I is confirmed in all tissues (9.62 +/- 5.81; 8.32 +/- 7.81 and 6.02 +/- 1.42 ng/mg protein, respectively) but no significant differences are displayed among the three groups.
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PMID:[Insulin growth factor I (IGF-I) in normal, hyperplastic, and tumor prostatic tissue]. 876 97

Plasma levels of IGF-I, IGFBP-I and IGFBP-3 were measured before and during treatment with tamoxifen up to 19+ months in 34 post-menopausal patients with advanced breast cancer. In 28 patients, pro-IGF-IIE (IGF-IIE) levels were determined and IGFBP-3 was evaluated by immunoblot in 27 patients. Tamoxifen suppressed plasma levels of IGF-I by a mean value of 25.5%-37.7% at different times. This effect was fully developed after 1-2 months of treatment. IGF-IIE was decreased by a mean value of 7.7-23.2% at different time intervals during treatment with tamoxifen, but this effect was significant after long-term treatment (19 months +) only. Plasma IGFBP-I increased by a mean value varying between 48.6% and 190.1%. Tamoxifen had no significant effect on total IGFBP-3 levels. However, patients responding to treatment had a 28% reduction in fragmentation of IGFBP-3, while patients with progressive disease had a 36% increase in fragmentation. The difference between responders and non-responders was highly significant. These findings confirm and extend previous observations regarding the effects of treatment with tamoxifen on IGF-I and IGFBP-I. The finding that patients responding to tamoxifen achieve a reduction in the ratio of fragmented to intact IGFBP-3, while patients progressing on therapy experience an increase in the IGFBP-3 fragmentation ratio, suggest that the tumor burden influences IGFBP-3 protease activity in breast- cancer patients.
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PMID:Influence of treatment with tamoxifen and change in tumor burden on the IGF-system in breast cancer patients. 879 79

The migratory behaviour of cells is fundamental to diverse biologic processes such as tumor metastasis, development of atherosclerotic plaques, embryonic development and wound healing. We have examined the effects of IGF-I and IGFBPs on the migration of Chinese Hamster ovary (CHO) cells, smooth muscle cells (SMC) and human breast cancer cells (HBC) and have studied the involvement of integrin receptors in migration induced by IGF-I and by IGFBPs. Using a monolayer wounding assay, we determined the effect of IGFBP-1 on SMC to be qualitatively similar to its effect we reported earlier on CHO cells, in that there is a direct stimulation of migration mediated by the alpha 5 beta 1 integrin. IGFBP-2 has no direct effect on SMC migration, and although it also contains the Arg-Gly-Asp sequence, we can detect no integrin binding. Unlike CHO cells, SMC are stimulated to migrate by IGF-I. IGFBP-2 and IGFBP-1 both inhibit this IGF-I receptor-mediated stimulation. We have also studied the migration of HBC using a Boyden chamber apparatus and have shown a potent chemotactic effect of IGF-I. We have investigated the mechanisms for IGF-I stimulation of SMC and HBC migration. IGF-I stimulation of SMC migration requires the presence of either 0.2% serum or vitronectin, because of a requirement for ligand binding by the alpha V beta 3 integrin (vitronectin receptor). MCF-7 HBC migrate toward a concentration gradient of IGF-I, the only growth factor that was able to stimulate these cells to migrate. Integrin ligand binding was also necessary for MCF-7 cells to migrate in response to IGF-I; alpha V beta 5 integrin was required for migration on vitronectin and alpha 2 beta 1 was required on collagen. These studies demonstrate that the stimulation of cell migration by IGFBP-1 and IGF-I involves signaling by members of the integrin family of receptors. The mechanisms by which the IGF-I receptor and integrin receptors interact are not yet known.
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PMID:Cell migration: interactions among integrins, IGFs and IGFBPs. 881 75

This paper reviews actions of antiestrogens on IGF physiology, and discusses the potential significance of the recent observations that (i) effects of antiestrogens on the uterus are correlated with their effects on uterine IGF-I and IGFBP-3 gene expression, and that (ii) the potent antiestrogen and growth inhibitor ICI 182,780 induces autocrine production of IGFBP-3 by estrogen receptor-positive breast cancer cells, while the growth stimulatory action of estradiol is associated with suppression of IGFBP-3 expression.
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PMID:Regulation of IGFBP-3 expression in breast cancer cells and uterus by estradiol and antiestrogens: correlations with effects on proliferation: a review. 881 94

The involvement of the IGF system in the growth regulation of hormone-dependent (e.g. endometrial and breast) cancer cells was studied. We chose two opposing effects of tamoxifen: the paradoxical stimulation of Ishikawa endometrial cancer cells growth and its inhibitory effect on MCF-7 mammary cancer cells. The results clearly confirm our working hypothesis that the IGF system is involved in growth regulation of these cancer cells irrespective of the direction of the drug effect. The following parameters of the IGFs system were studied: IGF-I receptors, IGF-I stimulated protein tyrosine phosphorylation, and membrane-associated and secreted IGF-binding proteins (IGFBPs). In Ishikawa cells, tamoxifen, similar to estradiol, increased IGF-I stimulated tyrosine phosphorylation of cellular substrates in accordance with its effect on cell growth. This effect of tamoxifen was inverted in MCF-7 cells. Tamoxifen did not affect the number or affinity of IGF-I receptors in both Ishikawa and MCF-7 cells, however, it caused a three-fold decrease in membrane-associated IGFBPs in the endometrial cells but an increase in these proteins in breast cancer cells. Similar but much less pronounced changes in soluble IGFBPs were observed. Our results indicate that the opposing growth effects of tamoxifen an endometrial and mammary cancer cells are associated with modulation of the IGF system components, mainly with reciprocal changes in membrane-associated IGFBPs.
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PMID:Components of the IGF system mediate the opposing effects of tamoxifen on endometrial and breast cancer cell growth. 881 96


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