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 is the most commonly diagnosed form of malignant neoplasia in men. Considerable evidence has accumulated suggesting that paracrine interactions between stromal cells and epithelial cells mediate, in part, the growth and development of the prostate. A nerve growth factor-like protein secreted by stromal cells has been implicated in the paracrine regulation of prostate epithelial tumor cell growth in vitro. This prostate-derived nerve growth factor-like protein differs from the known members of the neurotrophin family of proteins, and may represent a prostate-specific form of this family of gene products. Furthermore, corresponding nerve growth factor receptors have been localized to the epithelial cells of the human prostate in vivo, consistent with a role of the receptors and the adjacent nerve growth factor-like protein secreted by stromal cells, in the paracrine regulation of prostate growth and neoplasia.
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PMID:Role of nerve growth factor-like protein in the paracrine regulation of prostate growth. 129 29

12-O-tetradecanoyl phorbol ester (TPA) has profound cytotoxic effects on a human prostate cancer cell line, LNCaP. The TPA effect may be mediated via a protein kinase C (PKC) pathway, since staurosporine, a potent PKC inhibitor, could reverse the cell-killing effect. Our studies, based on cellular fragmentation, chromatin condensation, and nuclear fragmentation, suggest that the cell-killing effect is due to apoptosis. Moreover, we also examined expression of early growth response genes and androgen-induced genes in association with TPA-induced apoptosis. Northern blot analysis demonstrated that androgen induction of human glandular kallikrein-1 (hKLK2) mRNA was repressed by TPA in a concentration-dependent manner. A time course study showed that both hKLK2 and c-myc mRNAs were repressed by TPA as early as four hours. In contrast, the steady state mRNA levels for c-fos, c-jun, nerve growth factor induced gene A, and the orphan steroid receptor nur77 were rapidly induced within the first two hours of the treatment. Furthermore, transient co-transfection experiments demonstrated that c-fos and c-jun could repress androgen receptor-mediated gene induction. The above studies suggest that (1) the repression of androgen induction of gene expression by TPA-activated PKC is at least in part due to overexpression of c-jun and c-fos and (2) PKC may be a negative growth regulator in prostate cells.
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PMID:Tumor-promoting phorbol ester-induced cell death and gene expression in a human prostate adenocarcinoma cell line. 784 43

We are investigating the role of the early response transcription factor, nerve growth factor inducible A gene (NGFI-A), as a modulator of retinoblastoma (RB) gene transcription in prostate cells. Examination of the RB promoter reveals a novel element GCGGGGGAG located at nucleotides 152-144 upstream of the methionine initiation codon. This sequence shares strong homology with the consensus NGFI-A binding element GCGGGGGCG varying by a single nucleotide. In DNA binding assays, an NGFI-A fusion protein and the native protein product of the NGFI-A gene purified from prostate cancer cells bound specifically to an oligonucleotide containing the RB promoter element. Gene expression studies in rat ventral prostate demonstrated a 1.9-fold increase in RB mRNA following castration that parallels a 2.7-fold induction of NGFI-A mRNA. In summary, the in vitro DNA binding data and the transient coregulation of rat NGFI-A and RB following castration suggests that the RB gene may be transcriptionally regulated by NGFI-A in prostate cells.
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PMID:Prostatic nerve growth factor inducible A gene binds a novel element in the retinoblastoma gene promoter. 824 9

The IGFBP proteases were first described in pregnancy serum as a proteolytic activity against IGFBP-3. Since then, IGFBP proteases have been described in many other clinical situations, in various body fluids, and have been shown to cleave IGFBP-2 to -6 with varying specificity. The molecular nature of some of these proteases is being unraveled and three classes of IGFBP proteases have been recognized. These include kallikreins, cathepsins and matrix metalloproteinases (MMPs). We utilized two cellular systems to demonstrate the significance of IGFBP proteases in cellular growth regulation. In primary cultures of prostatic cells, we have shown that prostate-specific antigen (PSA) has the ability to enhance IGF mitogenic action by reducing the effects of IGFBPs. Similar kallikreins such as gamma nerve growth factor (NGF) share this activity. Within the prostatic milieu, we have also demonstrated epithelial production of the acid-activated IGFBP protease, cathepsin D, and its secretion into seminal plasma, as well as the serum of patients with prostate malignancy. We have also identified MMPs in prostatic cells and fluids. Using cultured airway smooth muscle (ASM) cells, we have demonstrated the synergism between IGFs and inflammatory agents in mediating ASM cell proliferation. Examination of this phenomenon revealed that these agents (e.g. leukotriene D4 and interleukin1-beta) induce the secretion of an IGFBP protease which cleaves the IGFBPs secreted by ASM cells, allowing IGFs to stimulate proliferation. Using several methods, including immunoblotting and immunodepletion techniques, we have identified this protease as MMP-1. These two pathophysiological systems demonstrate the importance of IGFBP proteases as autocrine paracrine growth regulators. Furthermore, IGFBP proteases may be critical elements in malignant and benign proliferative diseases, including prostate cancer and the ASM hyperplasia of long-standing asthma.
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PMID:Insulin-like growth factor binding protein (IGFBP) proteases: functional regulators of cell growth. 881 70

Members of the K252 family of kinase inhibitors have been demonstrated to inhibit a number of neurotrophin-mediated cellular responses, and to preferentially inhibit the activity of neurotrophin receptors. In this study, we examined the effects of K252a and K252b on the growth of human prostate carcinoma cells, whose growth is, in part, mediated by a prostatic nerve growth factor(NGF)-like protein(s). K252a inhibited [3H]thymidine incorporation by three androgen-independent prostate tumor cell lines (TSU-pr1, DU-145, and PC-3), under basal growth conditions, and in response to growth stimulation by human prostatic stromal (hPS) cell proteins and serum. K252b, which does not readily penetrate cell membranes, had no significant effect on [3H]thymidine incorporation by the prostate tumor cell lines. The decrease in [3H]thymidine incorporation by the cell lines in response to K252a did not appear to be the result of K252a cytotoxicity at concentrations as high as 100 nM, as measured by the Trypan blue assay for cell viability. Treatment of cells for 25 hours with 100 nM K252a resulted in accumulation of TSU-pr1, DU-145, and PC-3 cells in G0/G1, concurrent with a substantial decrease in cells synthesizing DNA. Treatment of androgen-responsive LNCaP prostatic carcinoma cells for 25 hours with 100 nM K252a also resulted in a significant decrease in DNA synthesis. Human recombinant NGF-mediated phosphorylation of a 140-kDa Trk NGF receptor in the TSU-pr1 cell line was inhibited by treatment with 100 nM K252a. Hence, K252a inhibition of Trk phosphorylation most probably contributed, in part, to the inhibition of prostate tumor cell growth in vitro. These results suggest that the mechanism of K252a action may be useful in the design of potential therapies for prostate cancer treatment.
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PMID:Anti-proliferative effect of the kinase inhibitor K252a on human prostatic carcinoma cell lines. 895 91

The prevalence of nerve growth factor (NGF) production in different human prostatic tumor cell lines (DU145, PC-3, LNCaP-FGC) was investigated using a specific enzyme-linked immunosorbent assay (ELISA) and compared to that of different human and rat prostatic tissue samples. In addition, the biological effects of NGF beta addition to the human prostatic cancer cell cultures were investigated. The ELISA technique showed the DU145 cell line to secrete measurable levels of NGF in the culture medium. When neurite-outgrowth determination in a pheochromocytoma cell line was used as a bioassay, the NGF synthesized by DU145 cells was confirmed to exhibit functional biological activity. No effect of exogenously added NGF could be established on tumor cell proliferation, on the basis of either colorimetric tetrazolium-based staining assay or bromodeoxyuridine incorporation. Also the expression of prostate specific acid phosphatase was not influenced by NGF addition. However, the in vitro invasive capacity (Matrigel) of DU145 cells was significantly increased by inclusion of 50 ng or 100 ng NGF beta/ml culture medium. In view of the clinically well-known perineural invasion of prostate cancer cells, the possible involvement of NGF as a (paracrine) factor in prostatic cancer metastatic behavior should be investigated further.
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PMID:Nerve growth factor stimulates in vitro invasive capacity of DU145 human prostatic cancer cells. 903 Feb 49

Neuroendocrine (NE) cells are present in both benign and malignant human prostate. However, their function is poorly understood, mainly due to the lack of suitable experimental models. The nerve growth factor-beta (NGF-beta) promotes the rat pheochromocytoma cell line PC-12 to differentiate into neuronal like cells. We have studied the effect of NGF-beta on four human prostate cancer cell lines, LNCaP, DU-145, PC-3, and TSU-pr1. NGF-beta stimulates the growth rate in all these cell lines, but does not induce a neuronal phenotype. NE tumour markers (chromogranin A [CgA] and chromogranin B[CgB]) could not be demonstrated by immunocytochemistry (CgA and CgB), Northern blotting (CgA), or ELISA techniques (CgA), neither in control nor in NGF-beta stimulated cells. Consequently, other experimental models have to be sought in the study of NE cells in the human prostate.
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PMID:NGF-beta, NE-cells and prostatic cancer cell lines. A study of neuroendocrine expression in the human prostatic cancer cell lines DU-145, PC-3, LNCaP, and TSU-pr1 following stimulation of the nerve growth factor-beta. 956 67

Advanced prostate cancer remains largely incurable, primarily because the very low growth fraction present in these tumors makes them generally resistant to treatment with standard chemotherapeutic agents that target cell division. Effective therapies should therefore induce death of prostate cancer cells, independent of their growth rate. trkA, the high-affinity tyrosine kinase-linked receptor for nerve growth factor, has been implicated in prostatic cancer growth and may represent a molecular target for therapeutic agents. At low mg/kg doses, the trk tyrosine kinase inhibitor CEP-751 (KT6587) inhibits prostatic cancer growth in nine different animal models independent of the tumor growth rate, androgen sensitivity, metastatic ability, or state of tumor differentiation. CEP-751 is selective for cancerous versus normal prostate cells and affects the growth of only a limited number of nonprostate tumors. Importantly, CEP-751 induces cell death of prostate cancer cells in a cell cycle-independent fashion and, therefore, represents a novel therapeutic approach to the management of both hormone-dependent and hormone-independent prostate cancer.
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PMID:Cell cycle-independent death of prostate adenocarcinoma is induced by the trk tyrosine kinase inhibitor CEP-751 (KT6587). 971 16

The majority of elderly men is affected by benign and malignant diseases of the prostate. Both proliferative disorders, i.e., benign hyperplasia of the prostate (BPH) and prostate cancer (PCa)-which has recently emerged as the most common male malignancy in industrialized countries-seem to be governed by endocrine factors such as sex steroid hormones, but auto/paracrine factors are involved as well. Age-related changes in levels and ratios of endocrine factors as androgens, estrogens, gonadotropins, and prolactin (PRL) and changes in the balance between auto/paracrine growth-stimulatory and growth-inhibitory factors such as insulin-like growth factors (IGFs), epidermal growth factor (EGF), nerve growth factor (NGF), IGF-binding proteins (IGFBPs), and transforming growth factor beta (TGFbeta) are meant to be responsible for abnormal prostatic growth. We investigated the existence of putative local regulatory circuits involving the protein hormones, human growth hormone (hGH), human placental lactogen (hPL), and hPRL, and their corresponding receptors in prostatic tissue specimens (transurethral resections of the prostate, TURP; n = 11), in the prostatic cancer cell lines PC3, Du145, LnCap, a virus-transformed BPH cell line (BPH-1), and in a normal healthy prostate by RT-PCRs and highly specific and sensitive immunofluorometric assays (IFMA). Neither hPRL nor hGH was detected at the mRNA or protein levels in prostatic tissue and cell lines, with the exception of 2 of 11 prostatic TURP-samples, which showed weak expression of the PL-A/B genes. PRL- and GH-receptors were expressed in all normal and pathological prostatic specimens. Surprisingly, PRL-receptor expression was not detectable in prostatic cancer cell lines. The trophic effects of exogenous hGH, hPL, and hPRL were investigated by cell proliferation assays (WST-I) in prostatic primary cell cultures and PCa cell lines. hGH significantly (p < 0.005) increased cell proliferation up to 138+/-3.2% (1 nM hGH), while hPL and hPRL revealed only moderate effects. Our data suggest that local auto/paracrine networks of protein hormone actions are not involved in the pathology of BPH or prostatic cancer. On the other hand, systemic pituitary-derived hGH can increase the proliferative response of BPH and PCa, acting directly on the target organ prostate, via the hGH-R. In this case, envisaged GH substitution in elderly people must be viewed at with caution because age-related declines in GH/IGF-I could act as a protective mechanism against abnormal cell growth.
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PMID:Proliferative disorders of the aging human prostate: involvement of protein hormones and their receptors. 1036 93

The role of the neurotrophins (NTs) and their corresponding receptors (NTRs) TrkA, TrkB, TrkC, and p75NTR in neoplasia has received relatively little attention. However, because malignant cell migration within the prostate occurs predominantly by direct extension around prostatic nerves, the presence and possible upregulation of NTs from autocrine/paracrine sources and NTR expression within prostate epithelial tumor cells may be important in metastasis. We have been addressing their expression and interactions in human prostate cancer cell lines (LNCaP, PC-3, and DU145) and their role in prostate cancer invasion. In this study, we demonstrated that nerve growth factor (NGF), the prototypic NT, and NT-4/5 increased in vitro invasion through a reconstituted basement membrane and induced time- and dose-dependent expression of heparanase, a heparan sulfate-specific endo-beta-D-glucuronidase, an important molecular determinant of tumor metastasis. The NT effects were most marked in the DU 145 brain-metastatic cells and were detected at NT concentrations sufficient to fully saturate both low- and high-affinity NTRs. Additionally, we characterized the molecular expression of NT high-affinity (Trk) and low-affinity (p75NTR) receptors in these cell lines by reverse transcription-polymerase chain reaction. These lines had negligible trkA and trkC expression, although trkB was expressed in the three prostatic tumor cell lines examined. The brain-metastatic DU 145 cells were also positive for p75NTR. Our data showed that the NTs and NTRs are important in metastasis and that their expression coincides with transformation to a malignant phenotype capable of invasion along the perineural space and extracapsular metastasis to distant sites. These findings set the stage for more research into this area as related to prostate cancer evolution and may improve therapy for prostate cancer metastasis.
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PMID:Role of neurotrophins and neurotrophins receptors in the in vitro invasion and heparanase production of human prostate cancer cells. 1054 17

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