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)

Prostate cancer metastasizes frequently to bone. Elevated extracellular calcium concentrations ([Ca(2+)](o)) stimulate parathyroid hormone-related protein (PTHrP) secretion from normal and malignant cells, potentially acting via the [Ca(2+)](o)-sensing receptor (CaR). Because prostate cancers produce PTHrP, if high [Ca(2+)](o) stimulates PTHrP secretion via the CaR, this could initiate a mechanism whereby osteolysis caused by bony metastases of prostate cancer promotes further bone resorption. We investigated whether the prostate cancer cell lines LnCaP and PC-3 express the CaR and whether polycationic CaR agonists stimulate PTHrP release. Both PC-3 and LnCaP prostate cancer cell lines expressed bona fide CaR transcripts by Northern analysis and RT-PCR and CaR protein by immunocytochemistry and Western analysis. The polycationic CaR agonists [Ca(2+)](o), neomycin, and spermine each concentration dependently stimulated PTHrP secretion from PC-3 cells, as measured by immunoradiometric assay, with maximal, 3.2-, 3.6-, and 4.2-fold increases, respectively. In addition, adenovirus-mediated infection of PC-3 cells with a dominant negative CaR construct attenuated high [Ca(2+)](o)-evoked PTHrP secretion, further supporting the CaR's mediatory role in this process. Finally, pretreating PC-3 cells with transforming growth factor (TGF)-beta(1) augmented both basal and high [Ca(2+)](o)-stimulated PTHrP secretion. Thus, in PTHrP-secreting prostate cancers metastatic to bone, the CaR could initiate a vicious cycle, whereby PTHrP-induced bone resorption releases [Ca(2+)](o) and TGF-beta stored within bone, further increasing PTHrP release and osteolysis.
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PMID:Ca(2+)-sensing receptor expression and PTHrP secretion in PC-3 human prostate cancer cells. 1170 43

Insulin-like growth factor binding protein-3 (IGFBP-3) has been proposed to mediate the growth inhibitory effects of transforming growth factor (TGF)-beta in breast and prostate cancer cells. Both TGF-beta and exogenous IGFBP-3 inhibit DNA synthesis in Mv1 mink lung epithelial cells (CCL64). The present study asks whether IGFBPs synthesized by CCL64 cells mediate growth inhibition by TGF-beta. CCL64 cells synthesize and secrete a single 34-kDa IGFBP that was identified as IGFBP-2 by immunoprecipitation and immunodepletion. Recombinant bovine IGFBP-2 inhibited CCL64 DNA synthesis in serum-free media in an IGF-independent manner. Coincubation with Leu(60)-IGF-I, an IGF-I analog that binds to IGFBPs with higher affinity than to IGF-I receptors, decreased the inhibition by bIGFBP-2. Leu(60)-IGF-I also decreased the inhibition of CCL64 DNA synthesis by TGF-beta by up to 70%, whereas Long-R3-IGF-I, an IGF-I analog with higher affinity for IGF-I receptors than for IGFBPs, did not decrease inhibition, suggesting that the effect of Leu(60)-IGF-I resulted from its forming complexes with endogenous IGFBPs. Leu(60)-IGF-I did not decrease TGF-beta stimulation of a Smad3-dependent reporter gene. Following incubation of intact CCL64 cells with bIGFBP-2 at 0 degrees C, bIGFBP-2 was recovered in membrane fractions; membrane association was abolished by coincubation with Leu(60)-IGF-I. If exogenous and secreted IGFBP-2 must bind to CCL64 cells to inhibit DNA synthesis, Leu(60)-IGF-I might reduce the inhibition of DNA synthesis by bIGFBP-2 or TGF-beta by inhibiting the association of IGFBP-2 in the media with CCL64 cells. Since TGF-beta does not increase IGFBP-2 abundance, we propose that TGF-beta sensitizes CCL64 cells to the latent growth inhibitory activity of endogenous IGFBP-2 by potentiating an intracellular IGFBP-2 signaling pathway or by promoting the association of secreted IGFBP-2 with the plasma membrane.
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PMID:Insulin-like growth factor binding protein-2 mediates the inhibition of DNA synthesis by transforming growth factor-beta in mink lung epithelial cells. 1180 12

GIPC1/RGS19IP1/GIPC, GIPC2, and GIPC3 are a family of central PDZ-domain proteins with GH1 and GH2 domains. GIPC1 interacts with GTPase-activating protein RGS19/RGS-GAIP, TGFbeta type III receptor, receptor tyrosine kinase TrkA, and integrin alpha6A subunit. Xenopus homologue of human GIPCs interacts with Frizzled-3 class of WNT receptor. We investigated expression of human GIPC1 mRNA in normal tissues, cancer cell lines, and primary tumors. GIP1A probe (nucleotide position 1075-1483 of GIPC1 cDNA) hybridized to GIPC1 mRNA of 1.8 kb in size. GIPC1 mRNA was almost ubiquitously expressed in various normal tissues. Expression level of GIPC1 mRNA was relatively lower in bone marrow and peripheral blood leukocytes. GIPC1 mRNA was relatively highly expressed in gastric cancer cell lines OKAJIMA, TMK1, MKN28, MKN45, MKN74, KATO-III, pancreatic cancer cell line AsPC-1, colorectal cancer cell line SW480, and lung cancer cell line A549. On the other hand, GIPC1 mRNA was almost undetectable in leukemia/lymphoma cell lines HL-60, Raji, and Daudi. Expression of GIPC1 mRNA was down-regulated in 12 out of 14 cases of primary kidney tumors, 10 out of 18 cases of primary colorectal tumors, 3 out of 8 cases of primary gastric cancer, 3 out of 3 cases of primary prostate cancer. Because GIPC1 induces increased expression of TGFbeta type III receptor at the cell surface and enhanced responsiveness to TGFbeta, down-regulation of GIPC1 mRNA in tumors might promote cellular proliferation through interference of TGFbeta signaling.
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PMID:Expression of human GIPC1 in normal tissues, cancer cell lines, and primary tumors. 1195 58

Gonadotropin-releasing-hormone (GnRH) analogues are synthetic compounds derived from decapeptide neurohormones (LHRH; LH/FSH-RH). They have a key role in hormone dependent cancer, particularly breast and prostate cancer. GnRH analogues produce an efficient inhibition of gonadotropins and sex steroid hormones. Their use in cancer therapy result in a, pharmacological castration (i.e. ovariectomy and orchiectomy), providing an androgen and estrogen ablation. GnRH exert an inhibitory action on the growth of hormone-dependent human and canine mammary tumor. Mammary tumors can produce growth factor that potentially could modulate their own proliferation in an autocrine fashion (i.e. TGF-alpha and TGF-beta or with a paracrine mechanism (i.e. EGF, IGF, FGF). The expression of EGF receptors is related in mammary tissues to the action of oestrogen and progesteron and to the presence of functional receptors for oestrogen (ER) and progesteron (PR). The present review elucidate the role of GnRH receptors in cancer and their connection with steroid hormones. Besides we showed the link between GnRH and signal transductions pathways: Estrogen-receptors, GnRH-receptors, EGF-receptors signal transduction pathways. A very tight link exists between steroid hormones and GnRH analogues both on central pituitary gonadal axis and on tumor receptors peripherically. This last mechanism could be explained either locally activating GnRH receptors or locally interacting with EGF receptor-Intracellular NitricOxide system.
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PMID:GnRH and steroids in cancer. 1204 4

Transformation and malignant progression of prostate cancer is regulated by the inability of prostatic epithelial cells to undergo apoptosis rather than by increased cell proliferation. The basic apoptotic machinery of most prostate cancer cells is intact and the inability to undergo apoptosis is due to molecular alterations that result in failure to initiate or execute apoptotic pathways. This review discusses the role of anti-apoptotic proteins such as Bcl-2/BclXL, NF-kappaB, IGF, caveolin, and Akt, and pro-apoptotic molecules such as PTEN, p53, Bin1, TGF-beta, and Par-4 that can regulate progression of prostate cancer. In addition to highlighting the salient features of these molecules and their relevance in apoptosis, this review provides an appraisal of their therapeutic potential in prostate cancer. Molecular targeting of these proteins and/or their innate pro- or anti-apoptotic pathways, either singly or in combination, may be explored in conjunction with conventional and currently available experimental strategies for the treatment of both hormone-sensitive and hormone-resistant prostate cancer.
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PMID:Regulation of apoptosis in prostate cancer. 1208 64

Transforming growth factor beta-1 (TGFbeta-1) and tumor necrosis factor alpha (TNF-alpha), an activator of nuclear factor kappa B (NF-kappaB), modulate apoptosis and/or cell growth. This study was designed to investigate the activity of NF-kappaB and its regulation of inhibitor of apoptosis gene (c-IAP2) in two human prostate cancer cell lines, DU-145 (which is androgen unresponsive) and ALVA-101 (which is moderately androgen responsive). These cells were treated with and without various concentrations of a strong antioxidant, pyrrolidinedithiocarbamate (PDTC), and TNF-alpha at various time intervals. Following treatments, cell growth and apoptosis were determined by ELISA techniques. NF-kappaB activity was determined by electrophoretic mobility shift assay (EMSA), and c-IAP2 mRNA production was determined with Northern blot analysis. PDTC treatment significantly reduced cell growth up to 80% in both DU-145 and ALVA-101 cells. TNF-alpha and lower but not higher doses of PDTC combined demonstrated an additive inhibition of cell growth in both cell lines. Active NF-kappaB and c-IAP2 was blocked significantly following PDTC treatments, whereas treatments with TNF-alpha alone showed increased NF-kappaB activity and c-IAP2. However, when both PDTC and TNF-alpha were combined, nuclear presence of NF-kappaB and c-IAP2 were reduced significantly (P < 0.05) to levels observed with PDTC alone. In conclusion, the antioxidant, PDTC, appears to initiate apoptosis by blocking cytoplasmic NF-kappaB translocation to the nucleus where it normally activates the production of apoptosis-inhibitory proteins like c-IAP2. Both TNF-alpha and PDTC alone cause apoptosis and reduce cell growth, but their combined effects are additive in reducing cell growth of DU-145 and ALVA-101 human prostate cancer cells.
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PMID:Inhibition of nuclear factor kappaB induces apoptosis following treatment with tumor necrosis factor alpha and an antioxidant in human prostate cancer cells. 1226 71

alpha(1)-Adrenoceptor antagonists, have been documented to induce apoptosis and reduce prostate tumor vascularity in benign and malignant prostate cells. The quinazoline based alpha(1)-antagonists, doxazosin and terazosin but not tamsulosin (a sulphonamide derivative) suppress prostate growth without affecting cell proliferation. These quinazoline-mediated apoptotic effects occur via an alpha(1)-adrenoceptor independent mechanism potentially involving activation of the TGF-beta signal transduction pathway. This review discusses the current knowledge of the action of quinazoline-derived alpha(1)-adrenoceptor antagonists in the benign and malignant prostate and their potential therapeutic use in the treatment of benign prostatic hyperplasia (BPH) and prostate cancer. Finally, a molecular pathway is proposed for their observed apoptotic function against prostate cells. Increased understanding of the action of these established and clinically accepted agents would provide a basis for the design of safe, effective therapeutic regimens in the treatment of prostatic diseases.
Prostate Cancer Prostatic Dis 2002
PMID:Induction of prostate apoptosis by alpha1-adrenoceptor antagonists: mechanistic significance of the quinazoline component. 1249 95

Transforming growth factor B (TGF-beta) is a potent immunosuppressive cytokine that is frequently associated with mechanisms of tumor escape from immunosurveillance. We report that transplantation of murine bone marrow (BM) expressing a dominant-negative TGF-beta type II receptor (TbetaRIIDN) leads to the generation of mature leukocytes capable of a potent antitumor response in vivo. Hematopoietic precursors in murine BM from donor mice were rendered insensitive to TGF-beta via retroviral expression of the TbetaRIIDN construct and were transplanted in C57BL/6 mice before tumor challenge. After i.v. administration of 5 x 10(5) B16-F10 murine melanoma cells into TbetaRIIDN-BM transplanted recipients, survival of challenged mice at 45 days was 70% (7 of 10) versus 0% (0 of 10) for vector-control treated mice, and surviving TbetaRIIDN-BM mice showed a virtual absence of metastatic lesions in the lung. We also investigated the utility of the TGF-beta-targeted approach in a mouse metastatic model of prostate cancer, TRAMP-C2. Treatment of male C57BL/6 mice with TbetaRIIDN-BM resulted in the survival of 80% (4 of 5) of recipients versus 0% (0 of 5) in green fluorescent protein-BM recipients or wild-type controls. Cytolytic T-cell assays indicate that a specific T-cell response against B16-F10 cells was generated in the TbetaRIIDN-BM-treated mice, suggesting that a gene therapy approach to inducing TGF-beta insensitivity in transplanted BM cells may be a potent anticancer therapy.
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PMID:Suppression of tumor metastasis by blockade of transforming growth factor beta signaling in bone marrow cells through a retroviral-mediated gene therapy in mice. 1249 44

Epithelial cancer cell invasion is facilitated by stromal cells, immune cells, endothelial cells and other epithelial cells. We have used two human papilloma immortalized prostate cell lines, CA-HPV-10 from a carcinoma and PZ-HPV-7 cells from normal prostatic epithelium to study cell-cell influences on growth, gelatinase secretion, invasion and responses to TGFbeta1. We found that co-culture with CA-10 carcinoma cells stimulates proliferation of the PZ-7 epithelial line. TGFbeta1 inhibited growth of both lines, but while inhibitory effects on the CA-10 cells diminished after removal of the peptide, inhibition of PZ-7 was lasting. Interestingly, the TGFbeta-induced growth inhibition in PZ-7 cells could be partially reversed by co-culture with CA-10 cells. Co-culture with CA cells in a 3-chamber invasion assay also promoted invasion of PZ cells. CA-10 invasion was enhanced by co-culture with TGFbeta1-treated-PZ-7 cultures and this enhancement was associated with TGFbeta1-induced secretion of matrix metalloproteinase-9. Our observations suggest that interaction between prostate cancer cells and prostate epithelial cells may promote proliferation of the epithelial cell population and produce a paracrine source of MMP-9 which may facilitate early cancer cell invasion.
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PMID:Paracrine communication between malignant and non-malignant prostate epithelial cells in culture alters growth rate, matrix protease secretion and in vitro invasion. 1255 79

Rapamycin inhibits the FK506-binding protein 12 (FKBP12)/mammalian target of rapamycin (mTOR) complex and causes cell cycle arrest in G1. The precise mechanism of growth inhibition by rapamycin is only partly understood. Rapamycin led to growth inhibition in the human prostate cancer cell lines LNCaP and PC3 cells after 72 h, ID50: 93 and 50 nM, respectively. Filter cDNA array analysis showed down-regulation by more than 0.75x by rapamycin in PC3 cells and LNCaP cells of the following genes: follistatin, eukaryotic initiation factor-4E (eIF4E), glucose-6-phosphate dehydrogenase (GAPDH), lactate dehydrogenase (LDH)-A, ATP synthase, heat shock protein (HSP)-1. Upregulation by more than 1.5x was found for: bone morphogenetic protein (BMP)-4, FKBP12, carcinoma embryonic antigen (CEA) precursor, eukaryotic initiation factor (eIF)-3 p36 subunit, latent transforming growth factor (TGF) beta binding protein (LTBP)1. Rapamycin induced BMP4 and reduced follistatin expression in PC3 cells. This resulted in a dose-dependent nuclear expression of Smad4 and activated the SBE4 Smad-reporter, indicating activation of TGFbeta/BMP signaling. Combining rapamycin with PI3K inhibition (LY294002) increased growth inhibition. These findings illustrate that Smad signaling plays a role in the anticancer effects of rapamycin and show that combination with PI3K inhibition improves growth inhibition.
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PMID:Rapamycin induces Smad activity in prostate cancer cell lines. 1259 18

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