Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study aimed to determine the mechanism(s) by which 1,4-dihydropyridine Ca2+ channel blockers (DHPs) enhance the binding of neurotensin (NT) to prostate cancer PC3 cells and inhibit NT-induced inositol phosphate formation. Earlier work indicated that these effects, which involved the G protein-coupled NT receptor NTR1, were indirect and required cellular metabolism or architecture. At the micromolar concentrations used, DHPs can block voltage-sensitive and store-operated Ca2+ channels, K+ channels, and Na+ channels, and can inhibit lipid peroxidation. By varying [Ca2+] and testing the effects of stimulators and inhibitors of Ca2+ influx and internal Ca2+ release, we determined that although DHPs may have inhibited inositol phosphate formation partly by blocking Ca2+ influx, the effect on NT binding was Ca2+-independent. By varying [K+] and [Na+], we showed that these ions did not contribute to either effect. For a series of DHPs, the activity order for effects on NTR1 function followed that for antioxidant ability. Antioxidant polyphenols (luteolin and resveratrol) mimicked the effects of DHPs and showed structural similarity to DHPs. Antioxidants with equal redox ability, but without structural similarity to DHPs (such as alpha-tocopherol, riboflavin, and N-acetyl-cysteine) were without effect. A flavoprotein oxidase inhibitor (diphenylene iodonium) and a hydroxy radical scavenger (butylated hydroxy anisole) also displayed the effects of DHPs. In conclusion, DHPs indirectly alter NTR1 function in live cells by a mechanism that depends on the drug's ability to donate hydrogen but does not simply involve sulfhydryl reduction.
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PMID:Polyphenolic antioxidants mimic the effects of 1,4-dihydropyridines on neurotensin receptor function in PC3 cells. 1471 82

Clinical application of anticancer agents has been often hampered by toxicity against normal cells, so the achievement of their cancer-specific action is still one of the major challenges to be addressed. Previously, we reported that arsenic trioxide (As2O3) could be a promising new drug against not only leukemia but also solid tumors. The cytotoxicity of As2O3 occurred through the generation of reactive oxygen species (ROS), thus inhibiting radical scavenging systems would enhance the therapeutic efficacy of As2O3 provided that normal cells were relatively resistant to such a measure. Here, we report that the combination therapy of As2O3 with L-buthionine-sulfoximine (BSO), which inhibits a critical step in glutathione synthesis, effectively enhanced in vitro growth inhibition effect of As2O3 on all 11 investigated cell lines arising from prostate, breast, lung, colon, cervix, bladder, and kidney cancers, compared with As2O3 treatment alone. Furthermore, this combination enhanced cytotoxicity to cell lines from prostate cancer with less toxicity to those from normal prostate. In vitro cytotoxic assay using ROS-related compounds demonstrated that hydrogen peroxide (H2O2) is a major cytotoxic mediator among ROS molecules. Biochemical analysis showed that combined use of As2O3 and BSO blocked H2O2-scavenging systems including glutathione, catalase, and glutathione peroxidase, and that the degree of this blockade was well correlated with intracellular ROS levels and sensitivity to this treatment. Finally, the effectiveness of the combination therapy of As2O3 with BSO was demonstrated with an orthotopic model of prostate cancer metastasis. We propose that the combination therapy of As2O3 with BSO is a valid means of blockade of H2O2-scavenging system, and that the combination of a ROS-generating agent with an inhibitor of major scavenging systems is effective in terms of both efficacy and selectivity. Furthermore, because the effective doses of both compounds are within clinically achievable range, this report will lead to immediate benefit for the development of a new cancer therapy.
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PMID:Effective treatment of advanced solid tumors by the combination of arsenic trioxide and L-buthionine-sulfoximine. 1500 36

Here we report that organic copper complexes can potently and selectively inhibit the chymotrypsin-like activity of the proteasome in vitro and in vivo. Several copper compounds, such as NCI-109268 and bis-8-hydroxyquinoline copper(II) [Cu(8-OHQ)(2)], can inhibit the chymotrypsin-like activity of purified 20S proteasome. In human leukemia cells, proteasome inhibition occurs within 15min after treatment, followed by apoptosis. Neither proteasome inhibition nor apoptosis occurs in non-transformed, immortalized human natural killer cells under the same treatment. Furthermore, proteasome inhibition and apoptosis induction were detected in prostate cancer cells treated with the ligand 8-OHQ alone following pre-treatment with copper(II) chloride. None of these events occurred in cells treated with copper(II) chloride alone, 8-OHQ alone (without growth in copper-enriched media), or nickel(II) chloride pre-treatment followed by 8-OHQ. Furthermore, we found that copper-mediated inhibition of purified 20S proteasome cannot be blocked by a reducing agent and that organic copper compounds do not generate hydrogen peroxide in the cells, suggesting that proteasome inhibition and apoptosis induction are not due to copper-mediated oxidative damage of proteins. Our results suggest that certain types of organic ligands could bind to tumor cellular copper, forming potent proteasome inhibitors and apoptosis inducers at copper concentrations found in tumor tissues.
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PMID:Organic copper complexes as a new class of proteasome inhibitors and apoptosis inducers in human cancer cells. 1500 50

We report here the structure-functional characterization of a novel intronless gene, BRCC2, located on human chromosome 11q24.1. BRCC2 open reading frame (327 bp) codes for an approximately 12-kDa protein (108 amino acids (aa)) localized predominantly in the cytosol and to a lesser extent in the mitochondria. Ectopic expression of BRCC2 cDNA also was found in both the cytosol and mitochondria. Exogenous expression of BRCC2 caused apoptotic cell death in three different cell lines as evidenced by enhanced chromatin condensation, DNA fragmentation, or an enhanced number of cells in the sub-G(1) phase. In human prostate cancer cells (PC-3), BRCC2-induced DNA fragmentation was blocked efficiently by coexpression of the anti-apoptotic molecule, Bcl-X(L). Transient transfection of BRCC2 cDNA into PC-3 cells in the presence of a broad-range caspase inhibitor, Z-VAD-fmk (100 microM, 24 h), abrogated DNA fragmentation. Consistently, BRCC2 expression correlated with the activation of caspase-3 and caspase-9. An N-terminal deletion mutant of BRCC2 (10.2 kDa, Delta1-16 aa) lacking a BH3-like domain (5-12 aa, LPIEGQEI) or BRCC2 containing a mutant BH3-like domain (leucine 5-->glutamate) failed to induce apoptosis, whereas a C-terminal deletion mutant (6.8 kDa, Delta62-108 aa) retained the apoptotic activity comparable to the full-length BRCC2. Finally, the treatment of HeLa cells with doxorubicin or hydrogen peroxide (H(2)O(2)) led to an increase in the mitochondrial (heavy membrane) level of endogenous BRCC2 (doxorubicin (100 ng/ml), 5 h, approximately 2-fold; H(2)O(2) (200 microM), 2 h, approximately 2-fold). These findings demonstrate that BRCC2 functions as a proapoptotic molecule and suggest that BRCC2 induces a caspase-dependent mitochondrial pathway of cell death.
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PMID:BRCC2, a novel BH3-like domain-containing protein, induces apoptosis in a caspase-dependent manner. 1506 58

The use of doxorubicin in treating prostate cancer is limited by its systemic toxicities especially cardiotoxicity and immunosuppression. Prodrugs that reduce the systemic exposure of doxorubicin are believed to provide a safety advantage. A prodrug of doxorubicin which contains a peptide sequence that can be recognized by prostate-specific antigen (PSA) and cleaved in the prostate was formulated for clinical use. The i.v. formulation and manufacture of this peptide conjugate posed several challenges. The main issue of the i.v. formulation were chemical and physical stability. The physical stability challenges posed during formulation and manufacture of his peptide conjugate is described herein. A heptapeptide conjugate of doxorubicin was found to aggregate in solution forming large ill defined aggregates (60-1300 nm). In contrast to doxorubicin, the average hydrodynamic diameter measured for this compound by dynamic laser light scattering technique is very large. Increasing concentration of the drug and lowering pH promoted aggregation. We rationalize the difference in the effective hydrodynamic diameter due to hydrogen bonding of the peptide which allows for the formation of large particle sizes relative to doxorubicin. We have also used 600 MHz 1H NMR to assess the aggregation of this compound.
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PMID:Assessing aggregation of peptide conjugate of doxorubicin using quasi-elastic light scattering and 600 MHz NMR. 1512 84

Garlic-derived organosulfides (OSCs) including diallyl trisulfide (DATS) are highly effective in affording protection against chemically induced cancer in animals. Evidence is also mounting to indicate that some naturally occurring OSCs can suppress proliferation of cancer cells by causing apoptosis, but the sequence of events leading to proapoptotic effect of OSCs is poorly defined. Using PC-3 and DU145 human prostate cancer cells as a model, we now demonstrate that DATS is a significantly more potent apoptosis inducer than diallyl sulfide (DAS) or diallyl disulfide (DADS). DATS-induced apoptosis in PC-3 cells was associated with phosphorylation of Bcl-2, reduced Bcl-2 : Bax interaction, and cleavage of procaspase-9 and -3. Bcl-2 overexpressing PC-3 cells were significantly more resistant to apoptosis induction by DATS compared with vector-transfected control cells. DATS treatment resulted in activation of extracellular-signal regulated kinase 1/2 (ERK1/2) and c-jun N-terminal kinase 1 (JNK1) and/or JNK2, but not p38 mitogen-activated protein kinase. Phosphorylation of Bcl-2 in DATS-treated PC-3 cells was fully blocked in the presence of JNK-specific inhibitor SP600125. Moreover, JNK inhibitor afforded significant protection against DATS-induced apoptosis in both cells. DATS-induced Bcl-2 phosphorylation and apoptosis were partially attenuated by pharmacological inhibition of ERK1/2 using PD98059 or U0126. Overexpression of catalase inhibited DATS-mediated activation of JNK1/2, but not ERK1/2, and apoptosis induction in DU145 cells suggesting involvement of hydrogen peroxide as a second messenger in DATS-induced apoptosis. In conclusion, our data point towards important roles for Bcl-2, JNK and ERK in DATS-induced apoptosis in human prostate cancer cells.
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PMID:Diallyl trisulfide-induced apoptosis in human prostate cancer cells involves c-Jun N-terminal kinase and extracellular-signal regulated kinase-mediated phosphorylation of Bcl-2. 1518 82

Magnetic resonance (MR) imaging and hydrogen 1 MR spectroscopy of the prostate gland are performed during the same examination with a conventional clinical MR unit. Prostate zonal anatomy and prostate cancer are best depicted on multiplanar T2-weighted MR images. MR imaging and 1H MR spectroscopy are not used as an initial diagnostic tool. Their use in tumor detection is reserved for patients with elevated prostate-specific antigen levels in whom previous biopsy results were negative. The use of MR imaging and 1H MR spectroscopy for the evaluation of tumor location, local extent (extracapsular extension and/or seminal vesicle invasion), volume, and aggressiveness is generating strong clinical interest. In staging and treatment planning, MR imaging has been shown to have an incremental value additive to the value of clinical nomograms. Furthermore, anatomic and metabolic mapping of the prostate gland with 1H MR spectroscopy offers the possibility of optimizing treatment planning (watchful waiting, surgery, or radiation therapy [intensity-modulated radiation therapy or brachytherapy]), thus further expanding the role of MR imaging in the achievement of patient-specific, individualized treatment.
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PMID:Pretreatment evaluation of prostate cancer: role of MR imaging and 1H MR spectroscopy. 1548 39

The development of age-related proliferative disorders of the prostate gland is supported by transdifferentiation and cellular senescence processes in the stroma. Both processes are involved in remodeling of stromal tissue, as observed in benign prostatic hyperplasia (BPH), and in "reactive stroma" adjacent to prostate cancer (PCa). It has been assumed that TGF-beta1 plays a key role in the aging prostate by inducing premature senescence and favoring myofibroblast differentiation. Therefore, we evaluated the stromal cell phenotypes of human primary adult prostatic fibroblasts (n=3) and the molecular and cellular mechanisms of growth arrest after treatment with TGF-beta1 and of in vitro cellular senescence. Microarray analysis, quantitative PCR, immunofluorescence and western blot revealed that cellular senescence and transdifferentiation of fibroblasts have distinct underlying mechanisms, pathways and gene and protein expression profiles in human PrSCs. In clear contrast to senescent cells, TGF-beta1-treated cells morphologically transdifferentiated into myofibroblasts with dense cytoskeletal fibers and increased expression of smooth muscle cell alpha-actin, calponin and tenascin. TGF-beta1 induced neither expression of senescence-associated markers nor genes involved in terminal growth arrest, such as senescence-associated beta-galactosidase and cyclin-dependent kinase (cdk) inhibitors p16(Ink4A) and p21(Cip1) but increased p15(Ink4B) protein expression. Differentiation inhibitor (Id-1) protein level down-regulation was observed under both conditions. Genes specifically up-regulated by transdifferentiation but not by cellular senescence of PrSCs were metalloproteinase 1 tissue inhibitor (Timp1), transgelin (Tagln), gamma 2 actin (Actg2), plasminogen activator inhibitor 1 (Serpinel), insulin-like growth factor binding protein 3 (Igfbp3), parathyroid hormone-like hormone (Pthlp), Tgfb-1, four and a half LIM domains 2 (Fhl-2), hydrogen peroxide-inducible clone 5 (Hic5) and cartilage oligomeric matrix protein (Comp). Other genes, such as Cdc28 protein kinase 1 (Cks1b), v-myb myeloblastosis viral oncogene homolog (MybL2), pyruvate kinase, muscle 2 (Pkm2) and Forkhead box M1 (FoxM1), were down-regulated only upon TGF-beta1 treatment but not by cellular senescence. Pyruvate dehydrogenase kinase 3 (Pdk3) and connective tissue growth factor (Ctgf) were up-regulated and hyaluronan synthase 3 (Has3) down-regulated under both conditions. Moreover, GageC1, a prostate/testis-specific protein overexpressed in symptomatic BPH and PCa was induced in transdifferentiated stromal cells. Genes such as GageC1 could be promising targets for therapeutic inhibitors of stromal tissue remodeling and progression of BPH and PCa.
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PMID:Profiling molecular targets of TGF-beta1 in prostate fibroblast-to-myofibroblast transdifferentiation. 1561 Jul 63

Proton MR spectroscopic imaging ((1)H-MRSI) of the human prostate, which has an interesting clinical potential, may be improved by increasing the magnetic field strength from 1.5T to 3T. Both theoretical and practical considerations are necessary to optimize the pulse timing for spectroscopic imaging of the human prostate at 3T. For in vivo detection of the strongly coupled spin system of citrate, not only should the spectral shape of the signal be easy to identify, but the timing used should produce MR signals at reasonably short echo times (TEs). In this study the spectral shape of the methylene protons of citrate was simulated with density matrix calculations and checked with phantom measurements. Different calculated optimal spectral shapes were measured in patients with prostate cancer with a 2D spectroscopic imaging sequence. T(1) and T(2) relaxation times were calculated for citrate and choline, the two major metabolites of interest in the prostate. We conclude that the optimum timing for in vivo point-resolved spectroscopy (PRESS) imaging at 3T is an interpulse timing sequence of 90 degrees-25 ms-180 degrees- 37.5 ms-180 degrees-12.5 ms-echo. A short repetition time (TR) of 750 ms partially saturates choline signals, but increases the SNR per unit time for citrate, and accommodates a maximum number of weighted averages of an elliptically sampled k-space for accurate localization and minimal contamination of the individual spectra. This is illustrated by means of a 3D spectroscopic imaging experiment in a complete prostate in vivo.
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PMID:Optimal timing for in vivo 1H-MR spectroscopic imaging of the human prostate at 3T. 1590 4

The anticancer anthracyclines, doxorubicin and daunorubicin, are highly cytotoxic to both cancer and normal cells. In this work, we have investigated the capacity of cellular myeloperoxidase to inactivate these agents. We show that incubation of human leukemia HL-60 cells with the anthracyclines in the presence of hydrogen peroxide and nitrite causes irreversible oxidation of the drugs, suggesting an extensive modification of their chromophores. Methimazole, 4-aminobenzoic acid hydrazide, or azide inhibits the reaction, suggesting that it is mediated by the cellular myeloperoxidase, an enzyme naturally present in large amounts in HL-60 cells. In contrast to the intact drugs, the oxidatively transformed anthracyclines were substantially less cytotoxic for HL-60 (assayed by apoptosis) and PC3 prostate cancer cells and H9c2 rat cardiac myoblasts in vitro (assayed by clonogenic survival), indicating that the oxidative metabolism of these agents leads to their inactivation. Using tandem mass spectrometry, we identified two specific metabolic products of the anthracycline degradation, 3-methoxyphthalic acid and 3-methoxysalicylic acid. These two metabolic products were obtained as authentic compounds and were nontoxic to HL-60 leukemic cells and cardiac myocytes. These findings may have important implications for the cellular pharmacology of anthracyclines and for clinical oncology.
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PMID:Inactivation of anthracyclines by cellular peroxidase. 1602 37


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