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

Five hexapeptide and heptapeptide analogs of luteinizing hormone-releasing hormone (LH-RH) were synthesized for use as carriers for cytotoxic compounds. These short analogs were expected to enhance target selectivity of the antineoplastic agents linked to them. Native LH-RH-(3-9) and LH-RH-(4-9) containing D-lysine and D-ornithine at position 6 were amidated with ethylamine and acylated on the N terminus. The receptor-binding affinity of one hexapeptide carrier AJ-41 (Ac-Ser-Tyr-D-Lys-Leu-Arg-Pro-NH-Et) to human breast cancer cell membranes was similar to that of [D-Trp6]LH-RH. Alkylating nitrogen mustards (melphalan, Ac-melphalan), anthraquinone derivatives including anticancer antibiotic doxorubicin, antimetabolite (methotrexate), and cisplatin-like platinum complex were linked to these peptides through their omega-amino group at position 6. The hybrid molecules showed no LH-RH agonistic activity in vitro and in vivo but had nontypical antagonistic effects on pituitary cells in vitro at the doses tested. These analogs showed a wide range of receptor-binding affinities to rat pituitaries and cell membranes of human breast cancer and rat Dunning prostate cancer. Several of these conjugates exerted some cytotoxic effects on MCF-7 breast cancer cell line.
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PMID:Short-chain analogs of luteinizing hormone-releasing hormone containing cytotoxic moieties. 133 35

Inhibitory effects of sustained delivery systems (microcapsules) of the modern antagonist of luteinizing hormone-releasing hormone [Ac-D-Nal(2)1, D-Phe(4Cl)2, D-Pal(3)3, D-Cit6, D-Ala10]LH-RH (SB-75) or the potent somatostatin analog D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) were investigated in the Dunning R-3327H rat prostate cancer model. In the first experiment, the treatment was started 4 months after tumor transplantation, when the tumors measured approximately 2 cm3. Tumor volumes and weights were significantly reduced by SB-75 microcapsules releasing 48 micrograms/day or RC-160 microcapsules releasing 38 micrograms/day given alone, as compared with the control. The combination of these two analogs showed a synergistic effect. In the second experiment, the treatment was started 7 months after tumor transplantation, when the tumors were well developed and measured about 16 cm3. In addition to a significant reduction in volume, weight, and growth rate of tumors, histological signs of tumor regression were found in the groups treated with SB-75 microcapsules releasing 72 micrograms/day given alone or in combination with RC-160 microcapsules releasing 76 micrograms/day, but not with RC-160 alone. No synergistic effect of the combination therapy was found in the second experiment. Serum testosterone levels decreased to undetectable levels and LH levels were also diminished within 2 weeks by administration of SB-75 alone or in combination with RC-160. In both experiments, the weights of testes, ventral prostate, and seminal vesicles were greatly reduced by administration of SB-75 alone or in combination with RC-160. Our results suggest that the combined therapy with microcapsules of SB-75 and RC-160, started soon after the diagnosis of prostate cancer is made, could improve therapeutic response.
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PMID:Effect of microcapsules of luteinizing hormone-releasing hormone antagonist SB-75 and somatostatin analog RC-160 on endocrine status and tumor growth in the Dunning R-3327H rat prostate cancer model. 135 72

The effects of treatment with a bombesin receptor antagonist [D-Tpi6, Leu13 psi (CH2NH) Leu14]BN(6-14)(RC-3095) and the combination of an agonist of luteinizing hormone-releasing hormone [D-Trp6]-LH-RH and somatostatin analog D-Phe-Cys-Tyr-D-Trp-Lys-Val- Cys-Trp-NH2 (RC-160) were studied in nude mice bearing xenografts of the hormone-dependent human prostate tumor PC-82. During the 5 weeks of treatment, tumor growth was decreased in all treated groups compared with controls. Bombesin antagonist RC-3095 and the combination of [D-Trp6]-LH-RH and RC-160 caused a greater inhibition of tumor growth than [D-Trp6]-LH-RH or RC-160 alone as based on measurement of tumor volume and percentage change in tumor volume. The largest decrease in tumor weight was also seen in the groups treated with the bombesin antagonist and with the combination of RC-160 and [D-Trp6]-LH-RH. Serum prostatic-specific antigen levels were greatly decreased, and insulin-like growth factor I (IGF-I) as well as growth hormone levels were reduced in all treated groups. Specific binding sites for [D-Trp6]-LH-RH, epidermal growth factor (EGF), IGF-I, and somatostatin (SS-14) were found in the tumor membranes. Receptors for EGF were significantly down-regulated by treatment with the bombesin antagonist or RC-160. Combination of LH-RH agonists with somatostatin analog RC-160 might be considered for improvement of hormonal therapy for prostate cancer. The finding that bombesin antagonist RC-3095 inhibits the growth of PC-82 prostate cancer suggests the merit of further studies to evaluate the possible usefulness of antagonists of bombesin in the management of prostatic carcinoma.
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PMID:Inhibition of growth of PC-82 human prostate cancer line xenografts in nude mice by bombesin antagonist RC-3095 or combination of agonist [D-Trp6]-luteinizing hormone-releasing hormone and somatostatin analog RC-160. 137 10

Many clinical approaches for the treatment of hormone-sensitive tumors are being developed based on analogs of LH-RH and somatostatin. Inhibition of the pituitary-gonadal axis forms the basis for oncological applications of LH-RH agonists like [D-Trp6]-LH-RH and new LH-RH antagonists free of edematogenic effects such as [Ac-D-Nal(2)1-D-Phe(4Cl)2-D-Pal(3)3,D-Cit6,D-Ala10]-LH -RH (SB-75). Agonists and antagonists of LH-RH have been used in patients with prostate cancer and might be also beneficial for the treatment of breast cancer and ovarian, endometrial and pancreatic carcinomas. Some of the effects of LH-RH analogs can be due to direct action since LH-RH receptors have been found in these cancers. The use of sustained delivery systems based on microcapsules of PLG, makes the treatment more efficacious. Octapeptide analogs of somatostatin such as D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) and related analogs were designed specifically for antitumor activity. These somatostatin analogs, by virtue of having a wide spectrum of activities appear to inhibit various tumors through multiple mechanisms. Direct antiproliferative actions of somatostatin analogs appear to be mediated by specific receptors located on tumor cells. High affinity binding sites for RC-160 and related analogs have been found in human pancreatic, prostate, breast and ovarian cancers and brain tumors such as meningiomas. In vivo administration of analog RC-160 inhibits the growth of Dunning R-3327 prostate cancers in rats, MXT mammary tumors in mice and BOP-induced ductal pancreatic cancers in hamsters. Combination of microcapsules of RC-160 with [D-Trp6]-LH-RH results in synergistic potentiation of the inhibition of these cancers. Somatostatin analog RC-160 and LH-RH antagonist SB-75 are the object of further experimental studies and clinical trials aimed at the exploration of their inhibitory effects on the processes of malignant growth.
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PMID:Antitumor effects of analogs of LH-RH and somatostatin: experimental and clinical studies. 198 Oct 9

Analogs of a potent octapeptide analog of somatostatin (SRIF) H-(D)Phe-Cys-Tyr-(D)Trp-Lys-Val-Cys-Thr(NH2) were synthesized. Aromatic substitutions for Tyr resulted in little change in inhibitory potency on growth hormone (GH) secretion in the rat. Substitutions for Val or (D)Trp resulted in analogs with diminished activity. Substitution of (D)Nal for (D)Phe increased duration of GH inhibition. Final weights of subcutaneously implanted prostate tumors (R3327) were 41% lower in rats treated with an N-terminal 4-chloro-(D)phenylalanyl analog as compared to vehicle treated controls. The analog had no effect on testicular weight or final plasma testosterone levels. SRIF analogs may represent an alternative treatment for prostate cancer that would be free of the untoward reproductive effects of other treatments (e.g. LH-RH or castration).
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PMID:Inhibition of rat prostate tumor growth by an octapeptide analog of somatostatin. 288 1

The combination of a long-acting delivery system for the agonist [D-Trp6]luteinizing hormone-releasing hormone ([D-Trp6]LH-RH) with modern somatostatin analogs was studied in the Dunning R-3327H rat prostate cancer model. Microcapsules of [D-Trp6]LH-RH releasing 25 micrograms/day were injected once a month. In the first experiment the adjunct was the somatostatin analog D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121), administered at a dose of 2.5 micrograms twice a day, and the therapy was continued for 70 days. Tumor volume was significantly decreased by [D-Trp6]LH-RH microcapsules or RC-121 given alone. The combination of microcapsules and analog RC-121 caused a greater inhibition of tumor growth than the single agents. Similar effects were seen when the percent increase in the tumor volume was examined. The inhibition of tumor growth caused by the [D-Trp6]LH-RH microcapsules was greater than that caused by RC-121. The combination of the two agents was again the most effective, resulting in the smallest increase in tumor volume. Tumor weights were much lower in the groups treated with microcapsules or RC-121 alone than in controls. The lowest tumor weights were obtained in the group that received the combination of [D-Trp6]LH-RH microcapsules and RC-121. Similar results were obtained in the second experiment, in which the animals were treated for a period of 83 days with microcapsules containing the somatostatin analog D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) that released 5 micrograms/day and were injected twice a month alone or in combination with microcapsules of [D-Trp6]LH-RH. Microcapsules of analog RC-160 given alone significantly decreased tumor growth as measured by the final tumor volume, the percentage change from the initial tumor volume, and the reduction in tumor weight. The inhibition of tumor growth induced by [D-Trp6]LH-RH microcapsules was greater than that caused by RC-160. The most striking decrease in tumor weight and volume was obtained in animals treated with microcapsules of [D-Trp6]LH-RH combined with the delayed delivery system for RC-160. The overall response to the combination therapy could reflect the inhibition by somatostatin analogs of the proliferation of prostate cancer cells through a decrease in growth hormone and prolactin release and interference with endogenous growth factors, in addition to the main effect, which is the suppression by [D-Trp6]LH-RH of the growth of androgen-dependent tumor cells. Our results indicate that somatostatin analogs enhance the inhibitory effects of [D-Trp6]LH-RH on the growth of prostate tumors. The administration of somatostatin analogs in combination with microcapsules of [D-Trp6]LH-RH might improve clinical response in patients with advanced prostate carcinoma.
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PMID:Somatostatin analogs as adjuncts to agonists of luteinizing hormone-releasing hormone in the treatment of experimental prostate cancer. 289 Jan 64

To study mutation of the CDKN2 gene in prostate cancer, samples from 51 Japanese patients and four human prostate cancer cell lines were examined by single-strand conformation polymorphism analysis and direct sequencing. Only one out of 51 (2%) patients revealed a mutation, which was a 24 bp deletion from the 5'-untranslated region to codon 3, resulting in loss of the initiation site. One of the four cell lines revealed a missense mutation, a GAC-->TAC (Asp-->Tyr) at codon 84. These results indicate that mutation of the CDKN2 gene is rare in prostate cancer and thus does not contribute significantly to the pathogenesis of human prostate cancer. Prostate cancer cell lines may acquire more frequent abnormality of the CDKN2 gene than tumor tissues.
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PMID:Mutational analysis of CDKN2 (CDK4I/MTS1) gene in tissues and cell lines of human prostate cancer. 755 77

The effects of somatostatin-14 (S) on the proliferation of the human prostatic cancer cell line (LNCaP, lymph node carcinoma of the prostate) and on the amount of proteins secreted by these cells have been studied. LNCaP cells were treated for 3 days with different doses of S. The hormone significantly inhibits cell proliferation at doses comprised between 0.4 and 2 nmol, as indicated by a significant decrease in the incorporation of 3H-thymidine as well as in the uptake of [alpha-32P]dATP. The direct antiproliferative effect of S is reversible, since cell proliferation returns to normal 4 days after withdrawal of the hormone from the medium. This action of S is not due to cytotoxic side-effects, since no changes in the incorporation of 35S-methionine are observed. Total RNA and protein synthesis do not appear to be modified by the hormone in vitro. The hormone probably exerts its antiproliferative effect on LNCaP cells by stimulating phosphotyrosyl protein phosphatases, since the inhibition of growth induced by S (1 nmol) is reversed by sodium vanadate (2 and 4 mumol), a potent inhibitor of the process of tyrosine dephosphorilation. In addition, S (1 nmol/L) induces a significant decrease in the amounts of proteins secreted by LNCaP cells. Also the antisecretory action of S seems to be mediated by the activation of phosphotyrosyl protein phosphatases, since sodium vanadate is able to reverse the action of S on this parameter. In conclusion, the present data suggest for the first time that S exerts a direct inhibitory effect on LNCaP cell proliferation and protein secretion, two effects probably mediated by the activation of phosphotyrosyl protein phosphatases.
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PMID:Direct inhibitory effect of somatostatin on the growth of the human prostatic cancer cell line LNCaP: possible mechanism of action. 769 Mar 58

DNA polymerase beta is a nuclear protein essential to DNA repair in mammalian cells. A high frequency of mutations in this gene has been reported in colorectal cancers. To clarify the tumorigenesis steps of human prostate cancers in the molecular basis, we examined the entire coding region of the human DNA polymerase beta gene in human prostate cancer tissues using polymerase chain reaction, single-strand conformational polymorphism analysis of RNA, and sequencing analysis. Consequently, we detected DNA polymerase beta gene mutations in 2 of 12 cases (17%). The first case is an A to G transition at nucleotide 893, resulting in a substitution of the amino acid from tyrosine to cysteine. In the second case, we found an A to G transition at nucleotide 305, a T deletion at nucleotide 569, and an A insertion into the 6 repeats of A from nucleotide 612 to 617. This T deletion shifted the subsequent reading frame and resulted in the premature termination at codon 163 instead of 336. The two cases were advanced grade and stage. Present results suggest that polymerase beta gene mutations, although they occurred at relatively low frequency, are involved in certain cases of human prostate carcinogenesis.
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PMID:DNA polymerase beta gene mutation in human prostate cancer. 818 60

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