Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Toll-like receptors (TLRs) are known to play a key role in the innate immune system particularly in inflammatory response against invading pathogens. Recent reports strongly indicate that they play important roles in cancer cells. Prostate cancer represents one of the most common cancer for which no cure is available once metastatic and androgen refractory. Since TLR3 has been recently suggested as a possible therapeutic target in some cancer cell lines, we studied TLR3 expression and functionality in two human prostate cancer cell lines, LNCaP and PC3. We report that both cell lines express TLR3 and that the TLR3 agonist poly (I:C) activates mitogen-activated protein kinases and induces inhibition of proliferation as well as caspase-dependent apoptosis. By using pharmacological and genetic approaches, we demonstrate the involvement of TLR3 in poly (I:C)-induced effects. We also show that a novel interferon-independent pathway involving protein kinase C (PKC)-alpha activation, upstream of p38 and c-jun N-terminal kinase, is responsible for poly (I:C) pro-apoptotic effects on LNCaP cells. To our knowledge, this is the first report describing a role of PKC-alpha in poly (I:C)-mediated apoptosis. The comprehension of the mechanisms underlying TLR3-mediated apoptosis can contribute tools to develop new agonists useful for the treatment of prostate cancer.
Carcinogenesis 2008 Jul
PMID:Toll-like receptor 3 triggers apoptosis of human prostate cancer cells through a PKC-alpha-dependent mechanism. 1856 14

Deregulation of the phosphatidyl inositol trisphosphate kinase/AKT/mammalian target of rapamycin (mTOR) and RAS/mitogen-activated protein kinase (MAPK)/MNK pathways frequently occurs in human prostate carcinomas (PCas) and leads to aberrant modulation of messenger RNA (mRNA) translation. We have investigated the relative contribution of these pathways to translational regulation and proliferation of PCa cells. MNK-dependent phosphorylation of eIF4E is elevated in DU145 cells, which have low basal levels of AKT/mTOR activity due to the expression of the tumor suppressor PTEN. In contrast, eIF4E phosphorylation is low in PC3 and LNCaP cells with mutated PTEN and constitutively active AKT/mTOR pathway, but it can be strongly induced through inhibition of mTOR activity by rapamycin or serum depletion. Remarkably, we found that inhibition of MNKs strongly reduced the polysomal recruitment of terminal oligopyrimidine messenger RNAs (TOP mRNAs), which are known targets of mTOR-dependent translational control. Pull-down assays of the eIF4F complex indicated that translation initiation was differently affected by inhibition of MNKs and mTOR. In addition, concomitant treatment with MNK inhibitor and rapamycin exerted additive effects on polysomal recruitment of TOP mRNAs and protein synthesis. The MNK inhibitor was more effective than rapamycin in blocking proliferation of PTEN-expressing cells, whereas combination of the two inhibitors suppressed cell cycle progression in both cell lines. Microarray analysis showed that MNK affected translation of mRNAs involved in cell cycle progression. Thus, our results indicate that a balance between the activity of the AKT/mTOR and the MAPK/MNK pathway in PCa cells maintains a defined translational level of specific mRNAs required for ribosome biogenesis, cell proliferation and stress response and might confer to these cells the ability to overcome negative insults.
Carcinogenesis 2008 Dec
PMID:Phosphorylation of eIF4E by MNKs supports protein synthesis, cell cycle progression and proliferation in prostate cancer cells. 1880 72

BTG2/TIS21/PC3 (B cell translocation gene 2) has been known as a p53 target gene and functions as a tumor suppressor in carcinogenesis of thymus, prostate, kidney, and liver. Although it has been known that the expression of BTG2/TIS21/PC3 is induced during chemotherapy-mediated apoptosis in cancer cells, a role of BTG2/TIS21/PC3 in cell death remains to be elucidated. In this study, the mechanism and role of BTG2 involved in the enhancement of doxorubicin (DOXO)-induced cell death were examined. Treatment of HeLa cells with DOXO revealed apoptotic phenomena, such as chromatin condensation and cleavage of poly(ADP-ribose) polymerase and lamin A/C with concomitant increase of BTG2/TIS21/PC3 expression. Employing infections of Ad-TIS21 virus and lentivirus with short hairpin RNA to BTG2, the effect of BTG2/TIS21/PC3 on the DOXO-induced apoptosis of HeLa cells and liver cancer cells was evaluated. Not only short hairpin RNA-BTG2 but also N-acetyl-L-cysteine significantly reduced the DOXO-induced HeLa cell death and generation of H2O2. Moreover, forced expression of BTG2/TIS21/PC3 using adenoviral vector augmented DOXO-induced cancer cell death concomitantly with increase of manganese-superoxide dismutase but not catalase, CuZnSOD, and glutathione peroxidase 1. The increased apoptosis by forced expression of BTG2/TIS21/PC3 could be inhibited by N-acetyl-L-cysteine and polyethylene glycol-catalase. These results therefore suggest that BTG2/TIS21/PC3 works as an enhancer of DOXO-induced cell death via accumulation of H2O2 by up-regulating manganese-superoxide dismutase without any other antioxidant enzymes. In summary, BTG2/TIS21/PC3 enhances cancer cell death by accumulating H2O2 via imbalance of the antioxidant enzymes in response to chemotherapy.
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PMID:B cell translocation gene 2 enhances susceptibility of HeLa cells to doxorubicin-induced oxidative damage. 1884 Jun 9

Resistance to detachment-induced apoptosis, a process commonly referred as anoikis, is emerging as a hallmark of metastatic malignancies, mainly because it can ensure anchorage-independent growth and survival during organ colonization. Besides, a sustained oxidative stress has been associated with several steps of carcinogenesis, including transformation and achievement of a motile mesenchymal phenotype. Here, we demonstrate that metastatic prostate carcinoma cells, undergoing a constitutive deregulated production of reactive oxygen species due to sustained activation of 5-lipoxygenase, lack suicidal pathways in response to lack of matrix contact. These amplified and persistent redox signals in PC3 cells leads to maintenance of Src oxidation and activation in the absence of adhesion, thereby sustaining a ligand-independent phosphorylation of epidermal growth factor receptor. This leads to chronic activation of pro-survival signals, culminating in degradation of the pro-apoptotic protein Bim, thereby promoting cell survival even in the absence of proper adhesion. Anoikis sensitivity of metastatic cells is restored with antioxidant intervention or genetic manipulation of the redox-mediated pro-survival pathway, as well as exposure to a pro-oxidant environment strongly increases anoikis resistance in non-transformed prostate epithelial cells. Hence, our results allow new insight into the aetiology of the molecular mechanisms granting anoikis resistance of metastatic cancers, opening new avenues to pharmacological intervention for antioxidant-sensitive invasive tumours.
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PMID:Redox regulation of anoikis resistance of metastatic prostate cancer cells: key role for Src and EGFR-mediated pro-survival signals. 1937 10

TIS21(/BTG2/PC3) has been shown to work as a pan-cell cycle inhibitor and a negative regulator of cyclin B1/cdk1 and forkhead box M1 (FoxM1). Moreover, loss of TIS21 expression has been suggested as an early event in carcinogenesis of thymus, prostate, kidney, and liver. However, there is no report yet what regulates the in vivo stability of TIS21 protein. Here, TIS21 was found to be a target of ubiquitin ligase, S phase kinase associated protein 2 (Skp2), the expression of which was regulated by FoxM1. Leucine rich repeat (LRR) domain of Skp2 could bind to TIS21 C-terminus and facilitated TIS21 degradation via ubiquitin-proteasome pathway. Skp2 without LRR and C-terminus deleted TIS21 (TIS21DeltaC) failed to interact with each other, and failure of their interaction prolonged half-life of TIS21 protein. Furthermore, in vivo function of TIS21, inhibition of cell growth, was regulated by expressions of Skp2 and FoxM1; It was significantly enhanced by knock down of Skp2 expression in the TIS21 adenovirus infected cells, whereas it was significantly ameliorated by co-expression of FoxM1 with TIS21. These data indicate that TIS21 is a novel target of SCF-Skp2 ubiquitin ligase, which is regulated by expression of FoxM1.
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PMID:Skp2 enhances polyubiquitination and degradation of TIS21/BTG2/PC3, tumor suppressor protein, at the downstream of FoxM1. 1961 63

Endoglin, a transmembrane glycoprotein that acts as a transforming growth factor-beta (TGF-beta) coreceptor, is downregulated in PC3-M metastatic prostate cancer cells. When restored, endoglin expression in PC3-M cells inhibits cell migration in vitro and attenuates the tumorigenicity of PC3-M cells in SCID mice, though the mechanism of endoglin regulation of migration in prostate cancer cells is not known. The current study indicates that endoglin is phosphorylated on cytosolic domain threonine residues by the TGF-beta type I receptors ALK2 and ALK5 in prostate cancer cells. Importantly, in the presence of constitutively active ALK2, endoglin did not inhibit cell migration, suggesting that endoglin phosphorylation regulated PC3-M cell migration. Therefore, our results suggest that endoglin phosphorylation is a mechanism with relevant functional consequences in prostate cancer cells. These data demonstrate for the first time that TGF-beta receptor-mediated phosphorylation of endoglin is a Smad-independent mechanism involved in the regulation of prostate cancer cell migration.
Carcinogenesis 2010 Mar
PMID:Endoglin phosphorylation by ALK2 contributes to the regulation of prostate cancer cell migration. 1973 6

The mammalian target of rapamycin (mTOR) kinase is an important component of PTEN/PI3K/Akt signaling pathway, which is frequently deregulated in prostate cancer (CaP). Recent studies suggest that targeting PTEN/PI3K/Akt and mTOR signaling pathway could be an effective strategy for the treatment of hormone refractory CaP. Here, we show that the treatment of androgen-independent and PTEN-negative human CaP PC3 cells with fisetin, a dietary flavonoid, resulted in inhibition of mTOR kinase signaling pathway. Treatment of cells with fisetin inhibited mTOR activity and downregulated Raptor, Rictor, PRAS40 and GbetaL that resulted in loss of mTOR complexes (mTORC)1/2 formation. Fisetin also activated the mTOR repressor TSC2 through inhibition of Akt and activation of AMPK. Fisetin-mediated inhibition of mTOR resulted in hypophosphorylation of 4EBP1 and suppression of Cap-dependent translation. We also found that fisetin treatment leads to induction of autophagic-programmed cell death rather than cytoprotective autophagy as shown by small interfering RNA Beclin1-knockdown and autophagy inhibitor. Taken together, we provide evidence that fisetin functions as a dual inhibitor of mTORC1/2 signaling leading to inhibition of Cap-dependent translation and induction of autophagic cell death in PC3 cells. These results suggest that fisetin could be a useful chemotherapeutic agent in treatment of hormone refractory CaP.
Carcinogenesis 2010 Aug
PMID:Fisetin induces autophagic cell death through suppression of mTOR signaling pathway in prostate cancer cells. 2053 May 56

Although the transient receptor potential melastatin 8 (TRPM8) cold receptor is highly expressed in prostate cancer (PCa) and constitutes a promising diagnostic and prognostic indicator, the natural agonists of this channel in the prostate, as well as its physiological and pathological functions, remain unknown. In this study, we identified the well-known PCa marker, prostate-specific antigen (PSA), as a physiological TRPM8 agonist. Electrophysiological and Ca(2+) imaging studies demonstrated that PSA activated TRPM8-mediated current by the bradykinin 2 receptor signaling pathway. Further investigation of this mechanism by cell-surface biotinylation revealed that the increase in TRPM8 current induced by PSA was due to an increase in the number of functional TRPM8 channels on the plasma membrane. Importantly, wound-healing and migration assays revealed that TRPM8 activation by PSA reduced motility of the PC3 PCa cell line, suggesting that plasma membrane TRPM8 has a protective role in PCa progression. Consequently, PSA was identified as a natural TRPM8 agonist in the prostate and we propose a putative physiological role for both of these proteins in carcinogenesis, making this pathway a potentially important target for anticancer agent development.
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PMID:PSA reduces prostate cancer cell motility by stimulating TRPM8 activity and plasma membrane expression. 2053 6

The omega-3 fatty acid ethanolamides, docosahexaenoyl ethanolamide (DHEA) and eicosapentaenoyl ethanolamide (EPEA), displayed greater anti-proliferative potency than their parent omega-3 fatty acids, docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), in LNCaP and PC3 prostate cancer cells. DHEA and EPEA activated cannabinoid CB(1) and CB(2) receptors in vitro with significant potency, suggesting that they are endocannabinoids. Both LNCaP and PC3 cells expressed CB(1) and CB(2) receptors, and the CB(1)- and CB(2)-selective antagonists, AM281 and AM630, administered separately or together, reduced the anti-proliferative potencies of EPEA and EPA but not of DHEA or DHA in PC3 cells and of EPA but not of EPEA, DHEA or DHA in LNCaP cells. Even so, EPEA and EPA may not have inhibited PC3 or LNCaP cell proliferation via cannabinoid receptors since the anti-proliferative potency of EPEA was well below the potency it displayed as a CB(1) or CB(2) receptor agonist. Indeed, these receptors may mediate a protective effect because the anti-proliferative potency of DHEA in LNCaP and PC3 cells was increased by separate or combined administration of AM281 and AM630. The anandamide-metabolizing enzyme, fatty acid amide hydrolase (FAAH), was highly expressed in LNCaP but not PC3 cells. Evidence was obtained that FAAH metabolizes EPEA and DHEA and that the anti-proliferative potencies of these ethanolamides in LNCaP cells can be enhanced by inhibiting this enzyme. Our findings suggest that the expression of cannabinoid receptors and of FAAH in some tumour cells could well influence the effectiveness of DHA and EPA or their ethanolamide derivatives as anticancer agents.
Carcinogenesis 2010 Sep
PMID:Cannabinoid receptor-dependent and -independent anti-proliferative effects of omega-3 ethanolamides in androgen receptor-positive and -negative prostate cancer cell lines. 2066 May 2

Prostate cancer metastasis is reliant on the reciprocal interactions between cancer cells and the bone niche/micro-environment. The production of suitable matrices to study metastasis, carcinogenesis and in particular prostate cancer/bone micro-environment interaction has been limited to specific protein matrices or matrix secreted by immortalised cell lines that may have undergone transformation processes altering signaling pathways and modifying gene or receptor expression. We hypothesize that matrices produced by primary human osteoblasts are a suitable means to develop an in vitro model system for bone metastasis research mimicking in vivo conditions. We have used a decellularized matrix secreted from primary human osteoblasts as a model for prostate cancer function in the bone micro-environment. We show that this collagen I rich matrix is of fibrillar appearance, highly mineralized, and contains proteins, such as osteocalcin, osteonectin and osteopontin, and growth factors characteristic of bone extracellular matrix (ECM). LNCaP and PC3 cells grown on this matrix, adhere strongly, proliferate, and express markers consistent with a loss of epithelial phenotype. Moreover, growth of these cells on the matrix is accompanied by the induction of genes associated with attachment, migration, increased invasive potential, Ca(2+) signaling and osteolysis. In summary, we show that growth of prostate cancer cells on matrices produced by primary human osteoblasts mimics key features of prostate cancer bone metastases and thus is a suitable model system to study the tumor/bone micro-environment interaction in this disease.
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PMID:Mineralized human primary osteoblast matrices as a model system to analyse interactions of prostate cancer cells with the bone microenvironment. 2068 84


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