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)

The diuretic drug amiloride (AMLD), which competitively inhibits the catalytic activity of urokinase plasminogen activators (UPA), was used to study its effects on the proteolytic enzymes implicated in the invasiveness and metastases in a prostatic tumor model carrying two different sublines of adenocarcinoma of the prostate. Our data showed that UPA activity was significantly higher, both in the cytosol and pellet of R3327-AT3, a fast-growing highly metastatic and androgen-insensitive tumor, as compared to the G3327-G subline, a slow-growing nonmetastatic tumor of the prostate. The UPA activity in AT3 tumor dropped when the rats were treated with AMLD for 3 weeks. The UPA activity in the sera and tumor effusions from rats with AT3 tumor was significantly higher as compared to those with G subline tumor. The number of pulmonary metastatic foci was the same in untreated rats as compared to those treated with AMLD. The lymph node inspection after 3 weeks revealed no secondary tumor in the AMLD-treated group. The role of UPA in the metastases of prostate cancer is discussed.
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PMID:Inhibitory effect of amiloride on the urokinase plasminogen activators in prostatic cancer. 942 83

Prostate cancer (PRCA) cells metastasize to bone with high frequency, inducing typical osteosclerotic lesions. To establish if local stimuli on the bone tissue may derive from metastatic colonies of prostatic origin, we evaluated the biologic activities secreted by human prostatic epithelium and effective on osteoblast-like cells in vitro. Supernatant from short-term tissue cultures of human prostatic tissue samples obtained from PRCA (35 cases) and benign prostatic hyperplasia (BPH, 12 cases) patients were applied to three models of cells with osteoblastic phenotype: two normal [rabbit osteoblasts (OB) and rat periosteal cells (PO)] and one transformed (human osteosarcoma cell line, MG63). Proliferative activity was monitored through enzymatic reduction of tetrazolium salts and expressed as relative mitogenic activities (RMA). Analysis of proliferation and alkaline phosphatase (ALP) activity, a marker of osteoblast function, demonstrates that conditioned media (CM) from PRCA cultures stimulate both growth and activity of osteoblast-like cells to a greater extent compared to CM from BPH. Furthermore, cell growth and activity of osteoblast-like cells are progressively increased by CM derived from patients with stage B (tumor confined within the prostate capsule), stage C (locally invasive tumor), and stage D (invasive tumor with distant metastasis) disease. One of the mechanisms potentially underlying the CM-stimulated effects on bone cells is associated with the urokinase (uPA) enzyme route, whose release progressively increases with the stage of disease. However, antibodies against uPA and p-aminobenzamidine (a low molecular weight urokinase inhibitor) treatment, which both inhibit the proliferative and differentiative effects induced by exogenous urokinase, partially slow down the effects of CM from PRCA tissue cultures, suggesting that additional factors are secreted by prostatic tumor cells in vitro. In conclusion, we show that the mitogenic and differentiative activities for osteoblasts produced by prostatic tumor cells in short-term tissue cultures are related to PRCA stage and may predict the behavior of skeletal metastases in single cases of tumor. In addition, the culture methods used may represent a valid model to study prostatic and bone cellular interactions, which may indicate new therapeutic approaches in metastatic prostate tumors.
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PMID:Human prostatic tumor cells in culture produce growth and differentiation factors active on osteoblasts: a new biological and clinical parameter for prostatic carcinoma. 943 95

Despite our recent advances in characterizing the molecular basis of breast and prostate cancer and their early detection with the aid of new imaging and diagnostic techniques, these cancers continue to be the leading causes of cancer-related deaths. This limited success in achieving our ultimate goal of cancer control is due to our inability to block the production of various factors produced in the later stages of these cancers that cause this high rate of mortality. A key requirement in the complex process of tumor invasion is the ability of tumor cells to produce and recruit growth factors and proteolytic enzymes within the tumor cell environment to promote neovascularization, tumor growth and promote extracellular matrix (ECM) degradation to facilitate tumor metastasis. One such protease, urokinase (uPA), has been strongly implicated in the progression of several malignancies including breast and prostate cancer. Along with uPA, its cell surface receptor (uPAR) is also believed to be involved due to its ability to recruit uPA within the tumor cell environment. In recent years, novel in vivo models of breast and prostate cancer have been developed which have clearly demonstrated the significance of uPA and uPAR in the invasion and metastases of these hormone-dependent cancers. The availability of these in vivo models has now permitted us to evaluate the molecular, chemical and immunotherapeutic strategies targeted against the uPA/uPAR system. This review describes the mechanism of uPA actions in tumor progression and analyses the usefulness of these in vivo models to authenticate uPA/uPAR as a therapeutic target and evaluates the benefits of blocking uPA/uPAR interactions alone or in combination with currently available treatment modalities against this cancer. Based on these results, there is an urgent need to develop and optimize strategies which will ultimately allow us to control the progression of these malignancies and enhance our ability to effectively manage these patients.
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PMID:Role of urokinase (uPA) and its receptor (uPAR) in invasion and metastasis of hormone-dependent malignancies. 949 55

Urokinase-type plasminogen activator (uPA) plays a central role in tissue remodeling and cell invasion. In the present study, we examined the expression of uPA in the prostate cancer cell lines LNCaP, DU-145 and PC-3. In contrast to DU-145 and PC-3, the androgen-responsive cell line LNCaP does not express uPA. However, seeding LNCaP cells on fibronectin-coated plates stimulated a low level of uPA expression which was further induced upon exposure of the cells to dihydrotestosterone (DHT). Concomitant with the expression of uPA, an androgen-regulated expression of uPA receptor (uPAR) was induced. These results suggest that the interaction of LNCaP cells with the extracellular matrix plays a dominant role in the androgen control of uPA and uPAR gene expression.
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PMID:Androgen induction of urokinase gene expression in LNCaP cells is dependent on their interaction with the extracellular matrix. 975 Dec 64

The tissue concentrations of urokinase-type plasminogen activator (u-PA), urokinase-type plasminogen activator receptor (u-PAR), plasminogen activator inhibitor type 1 (PAI-1) and tissue-type plasminogen activator (t-PA) were investigated by an ELISA technique in normal and malignant samples of the prostate from 24 patients undergoing radical prostatectomy for organ-confined prostate cancer. The median concentration of u-PA was significantly higher in cancerous than in normal prostate tissue (p = 0.006). No significant increase of u-PAR, PAI-1 and t-PA was found in cancer tissue in comparison with the benign samples (p > 0.05). Assessment of the relationship between fibrinolytic proteins and DNA ploidy revealed an increased u-PA, u-PAR and PAI-1 in diploid prostate cancer as compared with the normal controls. However, in aneuploid cancer u-PA remained high but u-PAR and PAI-1 were decreased. This led to a higher local concentration of u-PA in aneuploid samples than in normal prostate and in diploid prostate cancer. No alteration of median t-PA was found in benign prostate or in diploid or aneuploid prostate cancer. The altered expression of u-PA, u-PAR and PAI-1 in diploid and aneuploid prostate cancer suggests a possible role of fibrinolytic proteins in the different biologic behavior of tumors, and may be one explanation for the higher metastatic potential of aneuploid tumors.
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PMID:Analysis of fibrinolytic proteins in relation to DNA ploidy in prostate cancer. 976 66

Human prostatic epithelial cells constitutively secrete prostate-specific antigen (PSA), a kallikrein-like serine protease, which is a normal component of the seminal plasma. PSA is currently used as a specific diagnostic marker for the early detection of prostate cancer. We demonstrate that PSA degrades extracellular matrix glycoproteins fibronectin and laminin and, thus, may facilitate invasion by prostate cancer cells. Blocking PSA proteolytic activity with PSA-specific mAb results in a dose-dependent decrease in vitro in the invasion of the reconstituted basement membrane Matrigel by LNCaP human prostate carcinoma cells which secrete high levels of PSA. A novel PSA-SDS-PAGE zymography method for the detection of matrix degrading ability of PSA is also described. We propose that: (a) because of the dysplastic cellular disorganization in early neoplastic lesions called prostatic intraepithelial neoplasia (PIN), PSA may be secreted not only at the luminal end but also, abnormally, at the cell-basement membrane interface, causing matrix degradation and facilitating invasion; and (b) PSA, along with urokinase, another serine protease secreted by prostatic epithelium, may be involved in the proteolytic cascade during prostate cancer invasion and metastasis. The discovery of the extracellular matrix degrading ability of PSA not only makes it a marker for early detection but also a target for prevention and intervention in prostate cancer.
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PMID:Prostate-specific antigen, a serine protease, facilitates human prostate cancer cell invasion. 981 98

Effects of all-trans retinoic acid (RA) on the net enzymatic activity of secreted, extracellular urokinase-type plasminogen activator (u-PA) in DU-145 human prostatic carcinoma cells were examined to assess the potential use of retinoids in human prostate cancer prevention and treatment. u-PA is associated with tumor progression involving invasion and metastasis. Based on a chromogenic substrate assay, results show that DU-145 cells secrete five times more u-PA than normal human prostatic epithelium. DU-145 cells were treated with 0.1 to 10 micrometer RA for 48 h. This short treatment of cells with RA did not inhibit growth. After a 48-h treatment of cultures with RA, serum-free conditioned medium was analyzed for u-PA activity by SDS-PAGE zymography. Two major bands of u-PA with Mr of approximately 54,000 (high molecular weight u-PA) and approximately 33,000 (low molecular weight u-PA) were detected. Plasminogen-dependent catalytic activity of these bands could be specifically inhibited with antibody to u-PA, confirming that these bands represent u-PA. A 48-h treatment with 1.0 micrometer RA reduced u-PA activity in conditioned medium to 51.6% of control. A 50% reduction in free u-PA antigen level, as compared to control, was further demonstrated at 1.0 micrometer RA by Western blot analysis and densitometry. These results show that RA can decrease the net extracellular urokinase activity produced by prostatic carcinoma cells. It is proposed that these effects of RA may have important implications not only in the chemoprevention of prostate cancer, by inhibition of promotion of prostatic intraepithelial neoplasia to invasive carcinoma, but also in tumor progression during invasion and metastasis, by decreasing extracellular matrix degradation, as shown in our accompanying article (M. M. Webber and A. Waghray, Clin. Cancer Res., 1: 755-761, 1995).
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PMID:Retinoic acid modulates extracellular urokinase-type plasminogen activator activity in DU-145 human prostatic carcinoma cells. 981 41

Both normal and malignant prostatic epithelial cells in culture secrete urokinase-type plasminogen activator (u-PA) into the culture medium. u-PA has been shown to have a direct association with invasive and metastatic potential of many types of cancers. We propose that prostate cancer has the intrinsic ability to invade and metastasize because of its inherent ability to secrete the serine protease u-PA. We further propose that in prostate cancer, u-PA is the key enzyme which occupies a place at the apex of the proteolytic cascade and initiates the degradative process. Subsequently, collagenases are recruited after activation of procolla-genases by another serine protease plasmin formed by the activation of plasminogen by u-PA. Extracellular proteolysis involving plasmin can cause massive degradation of the extracellular matrix. We show that u-PA alone can use fibronectin as a substrate and degrade it, but u-PA alone did not degrade laminin. Serum-free conditioned medium from DU-145 human prostatic carcinoma cells has the ability to degrade both fibronectin and laminin. However, treatment of cultures with 1 microM all-trans retinoic acid (RA) for 48 h reduced the ability of serum-free conditioned medium to cause u-PA-mediated degradation of fibronectin and laminin. Thus, RA had a protective effect on these extracellular matrix glycoproteins. Treatment of cells with RA also decreased their ability to invade Matrigel in the in vitro invasion assay in a dose-dependent manner. RA at the 0.5, 1, and 10 microM level reduced invasion to 65.7%, 46.7%, and 34.3% of control, respectively. RA reduced extracellular proteolysis and thus inhibited extracellular matrix degradation and invasion. These results may also explain one mechanism by which retinoids inhibit invasion and metastasis in vitro and in vivo. These studies have important translational value in the chemoprevention of progression of prostatic intraepithelial neoplasia to invasive carcinoma.
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PMID:Urokinase-mediated extracellular matrix degradation by human prostatic carcinoma cells and its inhibition by retinoic acid. 981 42

The malignant phenotype of prostatic tumor cells correlates with the expression of both uPA and its cell-membrane receptor (uPAR); however, there is little information concerning the role of cell-bound uPA in matrix degradation and invasion. Our results suggest that cell-associated uPA plays a key role in regulating the amount of plasmin present at the surface of prostatic carcinoma (PRCA) cells and show that differential production of uPA corresponds with the capacity to bind and activate plasminogen. In addition, we provide direct evidence that both uPA secretion and the presence of uPA-uPAR complexes characterize the invasive phenotype of PRCA cells and suggest the existence of several pathways by which tumor cells acquire plasmin activity. LNCaP cells (which do not produce uPA but express uPAR) may activate plasmin through exogenous uPA. In vivo, the source of uPA may be infiltrating macrophages and/or fibroblasts as observed in several other systems. PAI-1 accumulation in the conditioned medium (CM) limits plasmin action to the pericellular microenvironment. Our results indicate that MMP-9 and MMP-2 are also activated by plasmin generated by cell-bound but not by soluble, extracellular uPA. Plasmin activation and triggering of the proteolytic cascade involved in Matrigel invasion is blocked by antibodies against uPA (especially by anti- A-chain of uPA which interacts with uPAR) and by PA inhibitors such as p-aminobenzamidine which may regulate levels of cell-bound uPA. uPA may also regulate growth in PRCA cells. Indeed, antibodies against uPA A-chain (and also p-aminobenzamidine treatment) interfere with the ATF domain and inhibit cell growth in uPA-producing PC3 and DU145 prostate cancer cell lines, whereas exogenous uPA (HMW-uPA with ATF) induces growth of LNCaP prostate tumor cell line. These data support the hypothesis that in prostatic cancer patients at risk of progression, uPA/plasmin blockade may be of therapeutic value by blocking both growth of the primary tumor and dissemination of metastatic cells.
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PMID:Plasminogen activator system modulates invasive capacity and proliferation in prostatic tumor cells. 987 99

We examined whether two newly defined parameters, the density of urokinase-type plasminogen activator (uPAD) and the density of its receptor (uPARD), which were determined by dividing the serum levels of uPA and uPAR by the prostate volume, respectively, could be used as predictors of the progression and prognosis of prostate cancer (PC). Serum levels of uPA and uPAR in 40 healthy controls, 70 patients with benign prostatic hypertrophy (BPH) and 80 patients with PC were measured by a sandwich enzyme immunoassay, and prostate volume was measured by ultrasonography. The mean levels of uPAD and uPARD in patients with PC were significantly higher than those in healthy controls and patients with BPH. Furthermore, the uPAD and uPARD levels in PC patients with metastasis were significantly elevated compared with those in patients without metastasis. Among patients who underwent radical prostatectomy, the levels of uPAD and uPARD in patients with pathologically organ-confined disease were significantly lower than in those with advanced disease. The overall survival rate of PC cancer patients with elevated levels of either uPAD or uPARD, or of both, was significantly lower than that of patients with normal levels of uPAD and uPARD. In addition, Cox's multivariate analysis revealed that the elevation of uPAD or uPARD level, or of both, was strongly associated with overall survival in PC patients. These findings suggest that the elevation of uPAD or uPARD, or of both, could be used as new predictors of progression and prognosis in patients with PC.
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PMID:Elevation of urokinase-type plasminogen activator and its receptor densities as new predictors of disease progression and prognosis in men with prostate cancer. 1002 88


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