Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High level expression of the cell surface adhesion molecule CD44 standard form and its splice variants, have been causally linked to tumor metastasis. In this study, we investigated the significance of CD44 expression in human prostatic carcinoma cells. Immunocytochemistry showed high level expression of CD44 in cells from a high grade prostate tumor, and two androgen-independent, invasive prostatic carcinoma lines, PC-3 and TSU-Pr1. Normal prostatic epithelial cells and LNCaP, a low metastatic, androgen sensitive cell line, expressed none to a very low level of CD44, although mRNA transcripts were detected in all cell lines. Immunoprecipitation detected two proteins of M(r) approximately 140 kDa and 210 kDa in PC-3, and predominantly the M(r) approximately 95 kDa protein in TSU Pr1, but none in LNCaP. Most importantly, a neutralizing antibody to CD44 inhibited cell proliferation and basement membrane invasive activity, suggesting a definitive role of CD44 in prostate tumor growth and metastasis.
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PMID:Expression of CD44 in prostate cancer cells: association with cell proliferation and invasive potential. 754 62

The phenomenon of inhibition of tumor growth by tumor mass has been studied in many experimental animal systems and has been observed in several clinical scenarios. Not until the recent discovery of angiostatin, a circulating angiogenesis inhibitor generated in the presence of a murine Lewis lung tumor, has a satisfactory mechanism been proposed to explain this phenomenon. Thus far, no other animal or human tumors are known to generate angiostatin. In this study, we utilized a mouse corneal neovascularization model to detect circulating inhibitors of angiogenesis generated by three human tumors grown in immunodeficient mice: (a) the PC-3 human prostate carcinoma; (b) the CCL188 human colon carcinoma; and (c) the UBC urinary bladder carcinoma. Mice bearing these three primary tumors demonstrated significant inhibition of angiogenesis in the cornea induced by a pellet containing basic fibroblast growth factor. Corneas of mice bearing s.c. prostate and colon carcinomas showed significant inhibition of vessel length, clock-hours of neovascularization, and vessel density. However, corneas of mice bearing s.c. bladder carcinomas demonstrated significant inhibition of vessel density only. Three colon carcinomas (clone A, CX-1, and MIP101), the MDA-MB-435S breast carcinoma, the MM-AN melanoma, and the JE-3 choriocarcinoma did not significantly inhibit corneal neovascularization.
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PMID:A strategy to discover circulating angiogenesis inhibitors generated by human tumors. 754 37

Hormonal treatment of advanced prostatic cancer patients generally results in an initially beneficial response, but the treated patients develop hormonally resistant disease in which no curative therapy is currently available. Recent studies have revealed that interleukin 6 (IL-6) is a growth factor for myeloma, renal cell carcinoma, and certain T-cell lymphomas. Further, IL-6 has been shown to block apoptosis induced by p53, transforming growth factor beta, and certain cancer chemotherapeutic compounds. The objective of the present study was to determine whether IL-6 is a growth factor for two human prostate cancer lines and whether it protects the tumor cells from drug-induced cell death. Two hormone-independent prostate cell lines were used in this study, namely PC-3 and DU145, and these have been shown to be relatively resistant to cis-diamminedichloroplatinum (CDDP), etoposide (VP-16), and adriamycin (ADR). Both cell lines express IL-6 mRNA and secrete IL-6 constitutively. The addition of anti-IL-6 antiserum to the cell lines resulted in a significant inhibition of cell growth up to day 2, and when additional antibody was added at day 2 the inhibition persisted for 4 days. The coaddition of anti-IL-6 antiserum and CDDP or VP-16 resulted in synergy in cytotoxicity in both cell lines, whereas the combination of antibody and ADR or suramin resulted only in additive effects. Sequential treatment revealed that anti-IL-6 antibody was required to achieve synergy, whereas either sequence of pretreatment resulted in synergy with anti-IL-6 and CDDP but not with VP-16. CDDP treatment of tumor cells down-regulated IL-6 mRNA expression and IL-6 secretion. The present findings demonstrate that IL-6 is an autocrine/paracrine growth factor for DU145 and PC-3 prostate lines. Additionally, the secretion of this cytokine protects the tumor cells against the cytotoxic effect of CDDP and VP-16 and its neutralization sensitizes the cells to cytotoxicity. Overall, the studies suggest that agents that can down-regulate or inhibit protective factors in tumors may overcome drug resistance.
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PMID:Endogenous interleukin 6 is a resistance factor for cis-diamminedichloroplatinum and etoposide-mediated cytotoxicity of human prostate carcinoma cell lines. 755 41

Tumor cell migration and proliferation in new organ environments are critical steps in cancer progression and can be modulated by tumor- and host-secreted molecules. Autocrine motility factor (AMF) is a tumor-secreted cytokine which regulates growth and motility by a receptor-mediated pathway. The AMF receptor, a 78-kDa cell surface glycoprotein (gp78), is regulated by cell contact in normal fibroblastic and bladder cells; however, this mechanism is disrupted during tumor progression. A prostatic carcinoma cell line which is low- to non-metastatic in nude mice (PC-3) and a derived metastatic variant (PC-3M) were examined to determine if gp78 cell density regulation is involved in prostate cancer progression. Both cell lines expressed gp78 and, although the basal migration of the parental PC-3 cells was higher than that of the metastatic variant, only the PC-3M cells were capable of responding to tumor-derived AMF with increased motility. Furthermore, these cells exhibited differential patterns of wound closure in an experimental system whereby the low-metastatic PC-3 cells migrated primarily along the wound edge while individual high-metastatic PC-3M cells entered the cell-free wound area directly. Cell surface gp78 distribution distinguished the cell populations with a markedly concentrated display of gp78 in polarized capped regions on the surface of the metastatic cells. Cell-cell contact down-regulated gp78 expression in the parental, but not the metastatic, cells, and mitogenic responses to exogenous AMF differed between these cell lines as well. In this model, metastasis appears to be associated with aberrant regulation of gp78 expression and distribution, coupled with enhanced exploitation of AMF's locomotory and proliferative effects.
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PMID:Loss of cell-contact regulation and altered responses to autocrine motility factor correlate with increased malignancy in prostate cancer cells. 755 35

Considerable evidence now exists to support an important role for the E-cadherin-mediated cell-cell adhesion pathway as a suppressor of the invasive phenotype in adenocarcinoma cells. Previous studies have found that this pathway is frequently aberrant in prostate cancers, particularly those that are likely to metastasize. In this study, we report on the effects of re-establishment of this pathway in a prostate cancer cell line, PC-3, in which this adhesion system is dysfunctional by virtue of a deletion of the gene that codes for alpha-catenin, an E-cadherin-associated protein necessary for normal E-cadherin function. Re-expression of alpha-catenin was accomplished either by transfection of PC-3 cells with a copy of the alpha-catenin cDNA under the control of a heterologous promoter or by microcell-mediated transfer of chromosome 5, which contains the alpha-catenin gene and its normal regulatory elements. In both cases, re-expression of alpha-catenin is associated with a similar, dramatic alteration in cell morphology, whereby extensive cell-cell contact is observed. In the case of transfection of the cDNA, this expression is only transient, because the transfected cells either cease to proliferate or, more commonly, revert to the parental phenotype with concomitant cessation of alpha-catenin expression. In contrast, cells containing one or more copies of microcell-transferred chromosome 5 express alpha-catenin in a stable manner and continue to proliferate. Upon injection into nude mice, these latter cells are no longer tumorigenic, or form only slowly growing tumors with greatly extended doubling times when compared to the parental PC-3 cells. During passage in culture, clones that contain only one transferred copy of chromosome 5 reproducibly revert to the parental phenotype. This reversion is associated with loss of the chromosome 5 region containing the alpha-catenin gene and consequent loss of alpha-catenin expression, as well as re-emergence of tumorigenicity. Transfer of chromosome 5 into prostate cancer cells that are E-cadherin negative does not result in either morphological transformation or suppression of tumorigenicity, suggesting that these effects of alpha-catenin expression are dependent upon concomitant expression of E-cadherin. These data demonstrate the tumor suppressive ability of chromosome 5 in the PC-3 prostate cancer cells and suggest that re-expression of alpha-catenin with resultant restoration of E-cadherin function plays a critical role in this process.
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PMID:Chromosome 5 suppresses tumorigenicity of PC3 prostate cancer cells: correlation with re-expression of alpha-catenin and restoration of E-cadherin function. 758 12

We investigated the effects of inositol hexaphosphate (InsP6) on growth inhibition and differentiation of human prostate cancer cells PC-3 in vitro. A significant dose- and time-dependent growth inhibition was observed as tested by the MTT-incorporation assay (P < 0.05 at 1 mM InsP6 after 24 h treatment, P < 0.01 at 0.1 mM after 3 days). DNA synthesis as determined by [3H]thymidine incorporation assay was also suppressed by InsP6 in a dose-dependent manner, occurring as early as 3 h after treatment and continuing up to 48 h (P < 0.01 at 1 mM InsP6). A 9- to 10-fold increase (P < 0.01) in expression of HLA class I molecule associated with tumor immunosurveillance and cell differentiation was induced by InsP6. The marker for prostatic cell differentiation, prostate acid phosphatase, was significantly (P < 0.05) increased after 48 h treatment at 0.5-5 mM InsP6. Since InsP6 strongly inhibits growth and induces differentiation in human prostate cancer cells in vitro, in vivo studies using a tumor xenograft model and a prostate carcinogenesis model are warranted to validate the efficacy of InsP6 in the treatment and prevention of prostate cancer.
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PMID:Inositol hexaphosphate inhibits growth and induces differentiation of PC-3 human prostate cancer cells. 763 29

During studies of mitogens in prostate, PSA quantities as low as 2.5 ng/mL caused cultured osteoblast cells to proliferate beyond controls (p = 0.05). Investigation of this novel mitogenicity suggested the use of several mechanisms by PSA, namely: 1) the activation of latent hTGF-beta in PC-3 conditioned medium, PSA treated conditioned medium stimulated DNA uptake in UMR-106 cells to 78% of acid treated conditioned medium, while DNA incorporation was less than controls with anti-hTGF-beta neutralizing IgG; and 2) the proteolytic modulation of cell surface receptors with temporary contact inhibition, PSA significantly stimulated cell detachment while hTGF-beta enhanced cell attachment of confluent Saos-2 cells above controls. Clinically, these results suggest that PSA may provide a mechanism for both tumor spread and the osteoblastic metastasis so common to prostate cancer.
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PMID:Mitogenic response of osteoblast cells to prostate-specific antigen suggests an activation of latent TGF-beta and a proteolytic modulation of cell adhesion receptors. 768 67

Prostate-specific antigen (PSA), a M(r) 34,000 serine protease, is recognized as a useful marker for the detection and prognosis of patients with prostate cancer. Although serum PSA is an excellent prognostic indicator, an increasing number of factors were found to regulate the PSA expression of prostatic cancer cells, which include androgenic steroids, the growth factors (GFs) and the extracellular matrix. The purpose of this study is to define a novel protein factor that may be responsible for regulating PSA expression by androgen-independent (AI) human prostate cancer cells. We have established a LNCaP subline (C4) from a parental LNCaP tumor grown in a castrated host. The C4 subline overexpressed PSA mRNA and protein. Serum-free conditioned medium (CM) isolated from the C4 subline is able to stimulate PSA gene expression in parental LNCaP cells in a concentration-dependent manner. This autocrine PSA-inducing activity was found to be organ specific because CMs from other fibroblast cell lines (such as bone, prostate, kidney, and lung fibroblasts) and the CMs from several prostatic carcinoma cell lines (such as parental LNCaP, PC-3, DU-145) and a bladder transitional carcinoma cell line (WH) fail to exhibit similar activity. The activity of the CM from the C4 subline cannot be substituted by GFs such as TGF-alpha, TGF-beta, bFGF, HGF, KGF, or NGF; neuropeptide (bombesin/GRP); secondary messenger analogue (dibutyryl cAMP); beta 2-adrenergic agonist (isoproterenol); or alpha 1-adrenergic agonist (phenylephrine), indicating that the factor(s) may be a novel prostate-specific autocrine factor (PSAF). Both androgen and PSAF exhibit an additive effect on up-regulating PSA gene expression, suggesting that the signal transduction pathway elicited by PSAF may differ from that mediated by the androgen receptor. Further characterization of PSAF by heat, acid, and trypsin digestion revealed that the PSAF may be a protein factor with a unique amino acid composition. These observations suggest that a novel autocrine pathway mediated by PSAF may be responsible for the overexpression of PSA mRNA and protein in a human prostatic cancer cell line. The potential clinical significance of this factor will be discussed.
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PMID:Autocrine regulation of prostate-specific antigen gene expression in a human prostatic cancer (LNCaP) subline. 768 49

Prostatic inhibin peptide (PIP), consisting of 94 amino-acid residues is synthesized and secreted by the prostate gland. Previous studies on immunohistochemical localization of PIP in primary prostatic tumor and their metastasis, have documented the value of this peptide as a tumor marker for diagnosis of prostate cancer (PCa). The present study was undertaken to compare the expression of PIP with that of prostate specific antigen (PSA) and prostatic acid phosphatase (PAP) in androgen independent human PCa cell lines (PC-3, DU-145 and TSU-Prl) by immunoperoxidase technique. The results of the study indicated that the staining for PIP was more intense than that of PSA and PAP. The PSA staining was either weakly positive (PC-3) or totally absent (TSU-Prl and DU-145) while PAP staining was intense in PC-3 and moderate in the other two human cell lines. The intense staining observed for PIP in all of the androgen independent cell lines suggests that the synthesis and secretion of PIP is not primarily dependent on androgens. Furthermore, expression of these markers in Dunning rat cultured adenocarcinoma cell lines and tumors were studied. Positive staining for all three human tumor associated antigens (PIP, PSA and PAP) cross-reacting with the Dunning rat PCa cell lines and the tumors, suggest the suitability of this model for preclinical screening of various therapeutic agents.
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PMID:A comparative study on expression of prostatic inhibin peptide, prostate acid phosphatase and prostate specific antigen in androgen independent human and rat prostate carcinoma cell lines. 768 36

Mifepristone, also known as RU 486, is a 19-norsteroid derivative. Currently, mifepristone is being tested in clinical trials on meningioma and breast cancer. In this study we analyzed whether mifepristone could inhibit the growth of human prostate cancer cells including androgen-insensitive (PC-3 and DU145) and androgen-sensitive (LNCaP) cell lines. At 1-nM concentration, mifepristone exhibited a marginal stimulatory action on LN-CaP and PC-3 cells. Nevertheless, a dose-dependent growth inhibition on those same cell lines was observed at concentrations of 1 microM and 10 microM. Twenty-day exposure to the clinically achievable concentration of 1 microM mifepristone resulted in consistent inhibition of all three cell lines studied. Furthermore, this in vitro growth inhibition was reflected in an in vivo nude mouse system. Mifepristone at the dosage of 4 mg/100 g body weight completely suppressed the growth of PC-3 tumors for 21 days, although this was followed by a growth rate similar to that of the control tumor. To understand the possible mechanism of mifepristone inhibition, PC-3 cells were exposed to mifepristone in comparison with dexamethasone (Dex), progesterone, and 5 alpha-dihydrotestosterone (DHT), each at 1-microM concentration. The results demonstrated that while both DHT and Dex alone had essentially no effect on cell growth, progesterone alone resulted in a 20% growth inhibition, while mifepristone had more than 60% inhibition with a 16-day exposure. At an equal concentration, the degree of growth inhibition of PC-3 cells by mifepristone or progesterone was partially diminished by simultaneous exposure to Dex. In conclusion, our results demonstrated that the growth of androgen-insensitive prostate cancer cells can be directly inhibited by mifepristone in cultures. This in vitro inhibition is reflected in xenografted tumors.
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PMID:Growth inhibition of androgen-insensitive human prostate carcinoma cells by a 19-norsteroid derivative agent, mifepristone. 771 84


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