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

PPARgamma, a member of the peroxisome proliferator-activated receptor family, is overexpressed in prostate cancer. Natural and synthetic ligands of PPARgamma via genomic and nongenomic actions promote cell cycle arrest and apoptosis of several prostate cancer cells, in vitro. Insulin-like growth factor 1 (IGF-1) inhibits the adriamycin-induced apoptosis of PC-3 human prostate cancer cells. Therefore, we have analyzed the ability of two PPARgamma ligands,15dPGJ2 and rosiglitazone, a natural and a synthetic PPARgamma ligand, respectively, to increase the adriamycin-induced cytotoxicity of PC-3 cells and to suppress the IGF-1 survival effect on adriamycin-induced apoptosis of PC-3 cells. Our data revealed that both the PPARgamma ligands increased the adriamycin-induced cytostasis of PC-3 cells, however, only rosiglitazone added to the adriamycin-induced apoptosis of PC-3 cells. In addition, rosiglitazone attenuated the type I IGF receptor (IGF-1R) survival signaling on adriamycin-induced apoptosis of PC-3 cells via its nongenomic action on ERK1/2 and AKT phosphorylation. Because the IGF-1R signaling is probably the most important host tissue (bone) metastasis microenvironment-related survival signaling for prostate cancer cells, we conclude that rosiglitazone effects on IGF-1R-mediated activation of ERK1/2 and AKT could have clinical implications for the management of androgen ablation-refractory and chemotherapy-resistant advanced prostate cancer with bone metastasis.
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PMID:Rosiglitazone attenuates insulin-like growth factor 1 receptor survival signaling in PC-3 cells. 1847 8

Protein kinase D (PKD) is a family of novel diacylglycerol/phorbol ester targets that regulate many important cellular functions including cell growth and survival. We now provide experimental evidence to indicate that PKD3 contributes to prostate cancer cell growth and survival. Expression of PKD3 as well as PKD1 was significantly higher in human prostate tumors compared with normal tissues as revealed by immunohistochemistry. Moreover, PKD3 exhibited a marked increase in nuclear localization in tumor tissues, which correlated with tumor grade. Isoforms of PKD were differentially expressed and localized between normal and human prostate cancer cells. Increased protein expression and nuclear accumulation of PKD3 were observed in the more aggressive androgen-independent PC3 and DU145 cells compared with the less aggressive androgen-dependent LNCaP cells. Overexpression of wild-type PKD3 in LNCaP cells blocked phorbol 12-myristate 13-acetate (PMA)-induced apoptosis in association with inhibition of PMA-induced down-regulation of Akt activity, and prolonged extracellular signal-regulated kinase (ERK)1/2 activation. Overexpression of wild-type PKD3 also promoted S phase entry, whereas depletion of endogenous PKD3 resulted in G(0)-G(1) phase cell cycle arrest and inhibition of PC3 cell proliferation. In PC3 and DU145 cells, PKCepsilon regulated PKD3 kinase activity and nuclear localization. Moreover, ectopical expression of PKD3 increased, whereas depletion of endogenous PKD3 reduced basal Akt and ERK1/2 activities. Further analysis showed that up-regulation of Akt activity induced by PKD3 required phosphatidylinositol-3-OH kinase and p38. In summary, our data indicate that PKD3 contributes to growth and survival of prostate cancer cells and may represent a novel therapeutic target for prostate cancer.
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PMID:Protein kinase D3 (PKD3) contributes to prostate cancer cell growth and survival through a PKCepsilon/PKD3 pathway downstream of Akt and ERK 1/2. 1848 69

The proinflammatory cytokine interleukin-6 (IL-6) has been considered a positive growth factor in late stage prostate cancer (PC) cells and a potential target for therapeutic interference. We studied the effects of inhibition of IL-6 in LNCaP-IL6+ cells, a model system for advanced PC, which produce IL-6. By using the chimeric anti-IL-6 antibody, CNTO 328, we showed that the autocrine IL-6 loop is responsible for decreased sensitivity of LNCaP-IL-6+ cells to die by apoptosis. Dysregulation of Bcl-2 family members could be implicated in the acquisition of resistance to apoptosis in malignant cell lines. Myeloid cell leukemia 1 (Mcl-1) is an antiapoptotic member of this family that is overexpressed in the IL-6 selected cells compared with control. Specific knock-down of Mcl-1 gene expression by siRNA yielded an increase in apoptosis of LNCaP-IL-6+ cells. Interestingly, inactivation of IL-6 autocrine loop was not able to increase apoptosis levels in the absence of Mcl-1, thus suggesting this molecule as a mediator of the survival action of IL-6. Finally, using selective kinase inhibitors we provide evidence for the involvement of p38 and ERK1/2 mitogen-activated protein kinases pathways in the IL-6-mediated regulation of Mcl-1. In conclusion, these data suggest that endogenous IL-6 acts as an antiapoptotic factor in LNCaP-IL-6+ cells and that Mcl-1 is critical for its survival activity. CNTO 328, in our experimental conditions, is able to render LNCaP-IL-6+ cells more sensitive to apoptosis. These data support the concept of anti-IL-6 therapy in human PC.
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PMID:Mcl-1 is regulated by IL-6 and mediates the survival activity of the cytokine in a model of late stage prostate carcinoma. 1849 81

A major characteristic of prostate cancer is the elevation of serum levels of prostate-specific antigen (hK3) and hK2, which are tumor markers that correlate with advancing stages of disease. Including hK4, these three kallikrein serine proteases are almost exclusively produced by the prostate. Prostate cancer cells have been recently shown to overexpress protease-activated receptors (PAR), which can be potentially activated by kallikreins and can regulate tumor growth. Here, we show that recombinant hK2 and hK4 activate ERK1/2 signaling of DU-145, PC-3, and LNCaP prostate cancer cells, which express both PAR1 and PAR2. These kallikreins also stimulate the proliferation of DU-145 cells. Pretreatment of hK2 and hK4 with the serine protease inhibitor, aprotinin, blocks the responses in DU-145 cells, and small interfering RNA against PAR1 and PAR2 also inhibits ERK1/2 signaling. To determine which PAR is activated by hK2 and hK4, a cell line that expresses a single PAR, a PAR1 knockout mouse lung fibroblast cell line transfected with PAR1 (KOLF-PAR1) or PAR2 (KOLF-PAR2) was used. hK4 activates both PAR1 and PAR2, whereas hK2 activates PAR2. hK4 generates more phosphorylated ERK1/2 than hK2. These data indicate that prostatic kallikreins (hK2 and hK4) directly stimulate prostate cancer cell proliferation through PAR1 and/or PAR2 and may be potentially important targets for future drug therapy for prostate cancer.
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PMID:Prostate-specific kallikreins-2 and -4 enhance the proliferation of DU-145 prostate cancer cells through protease-activated receptors-1 and -2. 1856 7

Androgen receptor (AR) signalling plays a pivotal role in prostate cancer pathogenesis and progression. However, androgen-mediated AR signalling is yet to be fully understood. EGFR and MAP kinase signalling pathways play predominant roles in AR function. Therefore, we investigated the interaction of EGFR signalling and AR activity in AR-positive LNCaP cells. We found that 5alpha-dihydrotestosterone (DHT) and EGF had a synergistic effect on AR activity as detected by a luciferase reporter system, although EGF alone did not activate AR. Both ERK1/2 and p38 were involved in DHT and DHT/EGF-induced AR activation as detected by specific MEK and p38 inhibitors. Furthermore, 24-h treatment of the cells with DHT resulted in ubiquitination and down-regulation of the EGFR. This effect could be inhibited by the anti-androgen flutamide, suggesting an androgen-dependent mechanism. On the other hand, DHT-treatment strongly increased AR levels in LNCaP cells. These data suggest a complex regulatory loop between activated AR and EGFR. In conclusion, activation of AR by both DHT and EGF/DHT involves the MAP kinase pathway. Long-term activation of AR results in increase of AR levels, which through so far unknown regulatory mechanisms results in ubiquitination and degradation of the EGFR.
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PMID:Dihydrotestosterone interacts with EGFR/MAPK signalling and modulates EGFR levels in androgen receptor-positive LNCaP prostate cancer cells. 1869 94

Overexpression of focal adhesion kinase (FAK) has been well correlated with tumor development and/or the maintenance of tumor phenotype. In addition, inappropriate activation of the extracellular regulated kinase (ERK) signaling pathway is common to many human cancers. In the present study, we investigated the interplay between FAK and ERK in androgen-independent prostate cancer cells (PC3 and DU145 cells). We observed that suppression of FAK expression using small interfering RNA-mediated knockdown decreased the clonogenic activity, whereas overexpression of FAK increased it. We also observed that detachment of PC3 and DU145 cells from their substrate induced tyrosine phosphorylation of FAK. ERK knockdown diminished FAK protein levels and tyrosine phosphorylation of FAK as well as FAK promoter-reporter activity. We also tested the effect of MEK inhibitors and small interfering RNA-mediated knockdown of ERK1 and/or ERK2 on cell proliferation, invasiveness, and growth in soft agar of PC3 and DU145 cells. Inhibition of ERK signaling grossly impaired clonogenicity as well as invasion through Matrigel. However, inhibition of ERK signaling resulted in only a modest inhibition of 3H-thymidine incorporation and no effect on overall viability of the cells or increased sensitivity to anoikis. Taken together, these data show, for the first time, a requirement for FAK in aggressive phenotype of prostate cancer cells; reveal interdependence of FAK and ERK1/2 for clonogenic and invasive activity of androgen-independent prostate cancer cells; suggest a role for ERK regulation of FAK in substrate-dependent survival; and show for the first time, in any cell type, the regulation of FAK expression by ERK signaling pathway.
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PMID:Focal adhesion kinase controls aggressive phenotype of androgen-independent prostate cancer. 1892 79

Testosterone signaling is widely considered to be mediated through the transcription-regulating intracellular androgen receptor (iAR). In the human prostate cancer cell line LNCaP we demonstrated the presence of unconventional membrane receptors for testosterone (mAR) besides the classic iAR. Binding sides for testosterone on the surface of LNCaP cells were clearly revealed with the membrane-impermeable testosterone-BSA-FITC by confocal laser-scanning microscopy and flow cytometry. Furthermore, we found that testosterone was able to induce a rapid activation of extracellular signal-related kinase 1 and 2 (ERK1/2), but not altered p38 MAPK and c-jun N-terminal kinase (JNK) activity. The testosterone-induced phosphorylation of ERK1/2 could not be inhibited by the AR antagonist cyproterone, excluding the involvement of iAR. Consistent with this finding, the impeded testosterone-BSA was also capable of rapidly phosphorylating ERK1/2, further revealing membrane receptor being responsible for the activation of ERK1/2. Additionally, testosterone-BSA induced a transient expression of c-Fos, which was in a timescale consistent with the rapid ERK1/2 phosphorylation and could be blocked by ERK1/2 inhibitor PD098059, suggesting an ERK1/2-dependent mechanism. Together, these data demonstrated a novel mode of testosterone signaling on LNCaP cells which was not mediated through the classical androgen receptor response, but through unconventional membrane receptors.
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PMID:Rapid membrane effect of testosterone in LNCaP cells. 1893 57

Down-regulation of the KAI1 (CD82) metastasis suppressor is common in advanced human cancer, but underlying mechanism(s) regulating KAI1 expression are only now being elucidated. Recent data provide evidence that low levels of KAI1 mRNA in LNCaP cells are caused by binding of beta-catenin/Reptin complexes to a specific motif in the proximal promoter, which prevents binding of Tip60/Pontin activator complexes to the same motif, thus inhibiting transcription. Here, we explored a pathway by which phorbol 12-myristate 13-acetate (PMA) up-regulates KAI1 transcription in LNCaP prostate cancer cells. Pretreatment with specific inhibitors showed that induction of KAI1 by PMA uses classic isoforms of protein kinase C (cPKC), is independent of Ras and Raf, and requires activation of MEK1/2 and ERK1/2, but does not involve p38MAPK. Induction of KAI1 transcription by PMA was associated with enhanced overall acetylation of histones H3 and H4, but only acetylation of H3 was blocked by a PKC inhibitor. Chromatin immunoprecipitation showed that PMA induces recruitment of Tip60/Pontin activator complexes to NFkappaB-p50 motifs in the proximal promoter, and this was blocked by a PKC inhibitor. These changes were not associated with differences in overall levels of Tip60, Pontin, beta-catenin, or Reptin protein expression but with PMA-induced nuclear translocation of Tip60.
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PMID:Phorbol ester enhances KAI1 transcription by recruiting Tip60/Pontin complexes. 1904 21

In this research, we conducted an in vitro analysis to evaluate the prostate cancer cells response to labedipinedilol-A in order to determine the effect of this selective alpha(1)-adrenoceptor antagonist to suppress prostate cancer cell growth by affecting cell proliferation and apoptosis. Here, we report that treatment of androgen-sensitive (LNCaP) and androgen-insensitive (PC-3) prostate cancer cells with labedipinedilol-A inhibited cell proliferation in concentration-dependent and time-dependent manners. Moreover, norepinephrine-stimulated proliferation of both cell lines are markedly inhibited by labedipinedilol-A. The probable involvement of alpha(1)-adrenoceptors in this cellular response is suggested. Labedipinedilol-A-induced growth inhibition was associated with G(0)/G(1) arrest, and G(2)/M arrest depending upon concentrations. Cell cycle blockade was associated with reduced amounts of cyclin D1/2, cyclin E, Cdk2, Cdk4, and Cdk6 and increased levels of the Cdk inhibitory proteins (Cip1/p21 and Kip1/p27). In addition, labedipinedilol-A also induced apoptosis in PC-3 cells, as determined by using Hoechst 33342 staining, DNA fragmentation, and Annexin V staining assay. Furthermore, labedipinedilol-A triggered the mitochondrial apoptotic pathway, as indicated by increasing the expression of Bax, but decreasing the level of Bcl-2, resulting in mitochondrial membrane potential loss, cytochrome c release, and activation of caspase-9 and -3. We further investigated the role of MAPK cascades in the anti-proliferative and apoptosis effects of labedipinedilol-A, and confirmed that labedipinedilol-A could activate JNK1/2 but not p38 in both cell lines. Unlike JNK1/2, however, labedipinedilol-A treatment resulted in down-regulation of phospho-ERK1/2 expression. We concluded that labedipinedilol-A possessed the growth-suppressive and apoptotic effects on LNCaP and PC-3 cells by its alpha(1)-adrenoceptor blockade, and the apoptotic effects of labedipinedilol-A primarily through caspases and MAPKs mediated pathways.
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PMID:Inhibition of human prostate cancer cells proliferation by a selective alpha1-adrenoceptor antagonist labedipinedilol-A involves cell cycle arrest and apoptosis. 1905 58

In cultured prostate cancer cells cAMP blocks proliferation and induces neuroendocrine differentiation. Pyk2 expression inversely correlates with malignancy of prostate cancer. The aim of this study was to investigate the interaction between cAMP and Pyk2 in the prostate. EPN cells, a line derived from human normal prostate expressing Pyk2, and EPN-PKM3 cells, an EPN clone bearing a Pyk2 kinase-negative mutant, were adopted as model system. cAMP inhibited cell growth in both prostate cell lines, and activated Pyk2, but not ERK1/2, in EPN cells. cAMP treatment, abolished the activation of AKT1, an important component of the pro-survival pathway, in the EPN cells but not in EPN-PKM3 cells. Finally, upon cAMP treatment, EPN and EPN-PKM3 cells exhibited different expression patterns of HOX genes, an important network controlling cell identity. These data demonstrated for the first time that Pyk2 and cAMP interact in regulating prostate cell functions and in "keeping" prostate identity.
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PMID:cAMP and Pyk2 interact to regulate prostate cell proliferation and function. 1918 31


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