UMLS:C0376358 - FACTA Search

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Query: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Suramin, a synthetic polysulfonated anionic compound, is known to abrogate the activity of a variety of growth factors that serve as ligands for receptor-class protein-tyrosine kinases. Based on this information, we initially hypothesized that suramin treatment would be associated with decreased tyrosine phosphorylation. Upon testing this hypothesis in prostate cancer cell lines, we found that the most conspicuous effect of suramin was to increase the tyrosine phosphorylation of several distinct proteins. Further analyses indicate that suramin-induced increases in tyrosine phosphorylation represent a generalized, but not universal, phenomenon found in cell lines derived from a variety of human tissues. These rapid and specific suramin-induced alterations represent a novel finding for a non-polypeptide pharmaceutical agent and question the hypothesis that suramin exerts its antitumor action simply by abrogation of growth factor action.
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PMID:Suramin rapidly alters cellular tyrosine phosphorylation in prostate cancer cell lines. 128 26

The antitrypanosomal and antifiliarial drug suramin is currently under investigation for treatment of advanced malignancies including prostatic cancer, adrenocortical cancer, and some lymphomas and sarcomas. Here we show that suramin is a potent inhibitor of the nuclear enzyme DNA topoisomerase II. Suramin inhibited purified yeast topoisomerase II with an IC50 of about 5 microM, as measured by decatenation or relaxation assays. Suramin did not stabilize the covalent DNA-topoisomerase II reaction intermediate ("cleavable complex"), whereas other inhibitors of this enzyme, such as amsacrine, etoposide, and the ellipticines, are known to stabilize the intermediate. In contrast, the presence of suramin strongly inhibited the cleavable-complex formation induced by amsacrine or etoposide. Accumulation of the endogenous cleavable complex was also inhibited. Suramin entered the nucleus of DC-3F Chinese hamster fibrosarcoma cells exposed to radiolabeled suramin for 24 hr as shown by both optic and electron microscopy. The suramin present in the nucleus seemed to interact with topoisomerase II, since suramin reduced the number of amsacrine-induced protein-associated DNA strand breaks in DC-3F cells and protected these cells from the cytotoxic action of amsacrine. Cells resistant to 9-hydroxyellipticine, which have been shown to have an altered topoisomerase II activity, are about 7-fold more resistant to suramin than the sensitive parental cells as shown by 72-hr growth inhibition assay. Our results suggest that DNA topoisomerase II is a target of suramin action and that this action may play a role in the cytotoxic activity of suramin.
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PMID:Suramin is an inhibitor of DNA topoisomerase II in vitro and in Chinese hamster fibrosarcoma cells. 131 77

10 patients with ovarian cancer, whose disease had progressed while receiving platinum-based therapy, were entered onto a phase II clinical trial of the antiproliferative agent suramin. Suramin was administered in a fashion that is associated with durable objective disease response in patients with hormonally resistant metastatic prostate cancer. No individual had an objective response to therapy in this study, but 3 of 9 evaluable patients (33%) experienced disease stabilisation and subjective clinical improvement for periods ranging from 2 to 5 months. Disease stabilisation was associated with prolonged periods of comparatively high plasma levels of drug, which appeared to be determined primarily by reduced drug clearance. We conclude that suramin has potential activity in platinum-resistant ovarian cancer, and we have initiated a second clinical trial using pharmacological information derived from this study.
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PMID:Suramin in advanced platinum-resistant ovarian cancer. 152 10

Suramin is being evaluated for the treatment of metastatic prostate cancer based on its inhibition of growth factor action. In addition, suramin may inhibit the endocrine control of androgen production, which was explored herein. Adult Sprague-Dawley rats were injected (i.p.) daily with varying doses of suramin. At a cumulative dose of 200 mg., suramin significantly depressed serum testosterone (p less than 0.05), and follicle stimulating hormone (p less than 0.002) levels. In vitro studies showed that suramin-mediated suppression of androgen production might be secondary to inhibition of gonadotropin action. In MA-10 cell cultures, suramin inhibited a maximum stimulatory dose of human chorionic gonadotropin with an ED50 of 4.4 microM. Studies in rat Sertoli cell cultures showed that follicle stimulating hormone action was also inhibited by suramin, with an ED50 of 8.6 microM. Using receptor binding assays with calf testis membrane, we showed that suramin inhibited 125I-hFSH binding to receptor in a dose dependent fashion with an ED50 of 10.4 microM; comparable to the ED50 of suramin inhibition of follicle stimulating hormone action in Sertoli cell culture cells. Thus the mechanism of suramin's suppression of androgen production may involve multiple sites of action, including inhibition of gonadotropin binding to its receptor and suppression of pituitary gonadotropin levels in serum. This inhibition of androgen production may be useful in the treatment of advanced prostate cancer.
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PMID:Suramin inhibits gonadotropin action in rat testis: implications for treatment of advanced prostate cancer. 153 72

Suramin is currently undergoing clinical trials as a chemotherapeutic agent for prostate cancer. The effects of suramin on cultured human epithelial cells derived from normal, benign hyperplastic, and malignant prostate tissues were examined. In serum-free medium, suramin inhibited the clonal growth of prostate cells at a half-maximal dose of approximately 10 micrograms/ml. Growth inhibition by suramin was completely reversible even after 24 hours of exposure. In conjunction, suramin did not alter cellular phenotype with regard to expression of keratins and prostate-specific antigens. Although suramin is reportedly an antagonist of growth factor-mediated mitogenesis, ten-fold excesses of growth factors did not appreciably suppress the cytostatic activity of suramin. In comparison to the activities of other possible chemotherapeutic agents, suramin would appear suboptimal because its inhibitory effects are reversible and it does not induce a terminally differentiated cellular phenotype.
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PMID:Cytostatic effects of suramin on prostate cancer cells cultured from primary tumors. 170 96

Suramin, a polyanionic compound with known antiparasitic activity, has been shown to be adrenocorticolytic in primates and to have clinical efficacy in the treatment of patients with metastatic prostate cancer refractory to conventional hormonal manipulation. To better characterize the activity of suramin on prostate cancer biology, we studied the effect of the drug on plasma adrenal androgens of patients and on the human prostate adenocarcinoma cell lines PC-3, DU 145 and LNCaP-FGC. Five cancer patients treated with suramin had an approximate 40% decline in circulating androstenedione, dehydroepiandrosterone and dehydroepiandrosterone sulfate levels. The drug inhibited the colony formation in two of the three cell lines at concentrations clinically achievable in humans without excessive drug-related toxicity. The presence of suramin 300 micrograms./ml. partially inhibited the growth stimulatory effect of testosterone and basic fibroblast growth factor, but not that of epidermal growth factor. The cellular concentration of suramin following exposure to a single dose increases linearly over time in each of the cell lines with LNCaP-FGC accumulating the highest levels of the drug; cellular levels of suramin, not androgen or growth factor sensitivity, correlated with the sensitivity to the drug. The concentrations of prostatic acid phosphatase and prostatic specific antigen released by LNCaP-FGC cells in cell culture medium declined in the presence of increasing levels of suramin in a manner which exceeded the decrease in cell number. We conclude that suramin, aside from decreasing circulating androgens through its adrenocorticolytic effect, is also capable exerting a direct inhibitory effect on cell proliferation of prostate cancer cells, and interfere at a cellular level with the growth stimulatory effects of exogenous testosterone and basic fibroblast growth factor.
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PMID:Effect of suramin on human prostate cancer cells in vitro. 182 65

Suramin, a new type of cancer chemotherapeutic agent with growth factor antagonist properties, has been reported to affect growth of prostate cancer metastatic lesions. Partin et al. have previously reported that prostate cancer cell motility was essential for tumor cell metastasis. We have studied the effects of suramin on cell motility and cell growth in a prostate cancer cell model. We have demonstrated that suramin has differential effects on rat prostate cancer cells in vitro. The effects of suramin on cell growth were biphasic. At low concentrations of 0.01 mM and 0.1 mM, suramin stimulated growth while it was inhibitory at a higher concentration of 1.0 mM, and 10 mM suramin resulted in cell death. Cell motility was inhibited at a suramin concentration above 0.1 mM. The inhibition of cell motility by suramin may be through the blockage of growth factor effects. Reducing serum growth factor concentration reduced cell motility and the motility was restored by the addition of basic fibroblast growth factor (bFGF) to the media. Motility which had been restored by bFGF could then be blocked by the presence of suramin. The inhibition of cell motility by suramin is reversible on washout of the drug. Suramin inhibits cell motility in both the human prostate cancer cells (LNCaP) and the rat (MLL).
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PMID:The effects of basic fibroblast growth factor and suramin on cell motility and growth of rat prostate cancer cells. 198 91

Suramin and related compounds, in view of their growth factor and enzyme binding properties, represent in many respects a novel approach to the treatment of cancer. Although in this preliminary analysis of suramin use in the treatment of metastatic prostate cancer, the objective response rate does not appear impressive, much work still needs to be done to optimize suramin's administration to patients and to elucidate its various postulated mechanisms of action. The development of related compounds with more specific enzyme and growth factor antagonist properties is under way.
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PMID:Use of suramin in treatment of prostatic carcinoma refractory to conventional hormonal manipulation. 199 66

Suramin, a polyanionic compound originally synthesized for use as an antiparasitic agent, has recently entered clinical trials for the treatment of a variety of human cancers refractory to conventional modalities of therapy. This is based on suramin's ability to bind and to inactivate growth factor and enzyme systems critical to cellular homeostasis and proliferation. In addition, this compound possesses adrenocorticolytic properties in vivo and exerts significant cytostatic and cytocidal effects against a variety of human tumor cell lines in vitro. Pilot studies using suramin have thus far been conducted in adrenocortical carcinoma, prostate cancer refractory to conventional hormonal manipulation and nodular lymphomas.
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PMID:Suramin, a novel antitumor compound. 228 3

Combined androgen blockade for metastatic prostate cancer has become the standard against which on-going clinical trials are measured. Benefit of combined androgen blockade with an LHRH agonist (leuprolide) and an antiandrogen (flutamide) has been noted, particularly for those with minimal disease. This has led to timely accrual of patients to a trial testing whether orchidectomy with flutamide is superior to orchidectomy alone. Positive findings with permanent and intermittent withdrawal of flutamide has prompted the design and implementation of additional trials. Suramin has been reintroduced in trials of chemohormonal intervention. Past success with combined androgen blockade in lengthening survival and improving quality of life for patients with metastatic prostate cancer has prompted enthusiasm for broadening the base of clinical studies for this disease.
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PMID:[Recent multicenter study protocols in the USA for patients with metastatic prostatic carcinoma]. 748 54

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