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)

Prostate cancer has a slow growing noninvasive phase, but, in general, is invasive on diagnosis. An initial step in the invasion of surrounding normal tissue is the activity of proteolytic enzymes such as components of the plasminogen activator system (PA). In cell culture, the primary human prostate cancer cell line 1013L expressed no urokinase type-PA (uPA), while DU 145, a cell line derived from a metastatic lesion, expressed high levels of uPA. The DU 145 cells grew easily as xenografts but the establishment of 1013L in the SCID mice was possible only with the aid of a gelatin sponge (Spongostan). The latency period was 42-64 days, followed by a slow growth phase before a fast growth phase occurred. This fast growth phase was characterized by rapid degeneration of tumor tissue, while high proliferation occurred around the blood vessels. On serial transplantation of tumor material, the growth pattern was similar. Furthermore, the 1013L tumor was encapsulated by connective tissue and no invasiveness could be detected. We found that 1013L tumor homogenates had hardly detectable levels of uPA, i.e., 300-fold lower than we found in the invasive prostate xenograft DU 145. In addition, no expression of uPA was found in the plasma of 1013L tumor-bearing mice whilst uPA antigen was detected in the plasma of DU 145 tumor-bearing mice. In conclusion, the 1013L cell line, which exhibits a nonaggressive pattern, could be a good model for studying progression of prostate cancer to a more aggressive phenotype in vivo and in vitro.
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PMID:Differential expression of uPA in an aggressive (DU 145) and a nonaggressive (1013L) human prostate cancer xenograft. 753 48

Mice, homozygous for the mutation severe combined immunodeficiency (scid) and also segregating for the mutation hypogonadal (hpg), were tested for their potential use as an in vivo model system for studying the growth of human prostate cancer and benign hyperplastic prostate tissue grafts. Fresh human prostate cancer or benign hyperplastic prostate tissue was implanted subcutaneously into androgen-replete C.B. 17 scid/scid males, and into androgen-deficient hpg/hpg scid/scid or androgen-replete +/? scid scid males. The tissue grafts grew in both androgen-replete and androgen-deficient host mice. When dihydrotestosterone (DHT) was administered at tissue grafting, both the incidence and size of the tissue grafts increased. Histology of tissue from tumors in the androgen-deficient hpg/hpg scid/scid host showed either undifferentiated tumors or adenocarcinomas with few glandular structures. These data suggest the androgen deficient environment selected for growth of androgen-independent tumor tissue. Finally, when interleukin-2 (IL-2)-activated tumor-infiltrating lymphocytes were injected into scid/scid hosts, the cells were found to survive and could be identified in the spleen of the recipient mice. These results indicate that growth of human prostate tissues and IL-2-activated lymphocytes in scid/scid mice is a viable model system for in vivo studies of prostatic disease.
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PMID:Survival of human prostate carcinoma, benign hyperplastic prostate tissues, and IL-2-activated lymphocytes in scid mice. 754 29

Human prostatic cancer cells have a remarkably low rate of proliferation even when they have metastasized to the bone and have become androgen independent (Berges et al., Clin. Cancer Res., 1:473-480, 1995). Due to this low proliferation, patients with such androgen-independent metastatic prostatic cancer cells are rarely treated successfully with the presently available chemotherapeutic agents. Therefore, new approaches are urgently needed which are not dependent on the rate of cancer cell proliferation for their effectiveness. One such approach is to inhibit the angiogenic response within localized and metastatic cancer deposits, since the resultant hypoxia-induced tumor cell death does not require cell proliferation. We have previously demonstrated that the quinoline-3-carboxamide, linomide, is an p.o. active agent which inhibits tumor angiogenesis and thus blood flow in a variety of rat prostatic cancers independent of their growth rate, androgen sensitivity, or metastatic ability. Because of its antiangiogenic effects, linomide treatment induces the hypoxic death of rat prostatic cancer cells, thus inhibiting their net growth and metastases. To determine whether human prostatic cancer cells are similarly sensitive to hypoxia-induced death caused by linomide inhibition of tumor angiogenesis, androgen-independent TSU and PC-3 human prostatic cancer cells were xenotransplanted into SCID mice that were either untreated or treated p.o. with linomide. These studies demonstrated that linomide treatment decreases microvessel density in both androgen-independent human prostatic cancers. Microvessel density was decreased from 1.8 +/- 0.4% of the total area in control tumors to 1.0 +/- 0.2% in linomide-treated TSU tumors [i.e., a 44% decrease in microvessel density (P < 0.05)]. Similarly, a 56% decrease (P < 0.05) was observed in the microvessel density of PC-3 tumors (i.e., 2.7 +/- 0.8% of the area in control tumor versus 1.2 +/- 0.2% in the linomide-treated tumors). This inhibition of angiogenesis increased cell death in both TSU and PC-3 cancer cells. This is reflected in both an increase in the area of necrosis and an increase in the apoptotic index in non-necrotic areas. In untreated TSU tumors, 40 +/- 2% of tumor volume was necrotic. Linomide treatment increased this necrotic percentage to 59 +/- 2% [i.e., 48% increase (P < 0.05)]. Linomide therapy also increased apoptotic cell death in non-necrotic tumor areas. In the untreated TSU tumors, 2.9 +/- 0.6% of tumor cells were apoptotic in the non-necrotic areas, and in the linomide-treated TSU tumors this percentage increased to 3.6 +/- 0.4% [i.e., 24% increase (P < 0.05)].(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Human prostatic cancer cells are sensitive to programmed (apoptotic) death induced by the antiangiogenic agent linomide. 754 15

Cell adhesion and migration are important features in tumor invasion, being mediated in part by integrins (extracellular matrix receptors). Integrins are significantly decreased in human prostate cancer. An exception is alpha 6 integrin (laminin receptor) which persists during prostate tumor progression. We have selected high (DU-H) and low (DU-L) expressors of alpha 6 integrin from a human prostate tumor cell line, DU145, to assess experimentally the importance of alpha 6 integrin in tumor invasion. DU-H cells exhibited a four-fold increased expression of alpha 6 integrin on the surface compared to DU-L cells. Both cell types contained similar amounts of alpha 3 and alpha 5 integrin. The DU-H cells contained alpha 6 subunits complexed with both the beta 1 and beta 4 subunits whereas DU-L cells contained alpha 6 complexed only with beta 4. DU-H cells were three times more mobile on laminin as compared to DU-L, but adhered similarly on laminin. Adhesion and migration were inhibited with anti-alpha 6 antibody. Each subline was injected intraperitoneally into SCID mice to test its invasive potential. Results showed greater invasion of DU-H compared to DU-L cells, with increased expression of alpha 6 integrin on the tumor at the areas of invasion. These data suggest that alpha 6 integrin expression is advantageous for prostate tumor cell invasion.
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PMID:Integrin alpha 6 expression in human prostate carcinoma cells is associated with a migratory and invasive phenotype in vitro and in vivo. 758 6

A series of functional studies were performed to assess the potential role of the ras-related transformation suppressor gene, Krev-1, in suppressing prostate cancer cell growth. Three human prostate cancer cell lines, PC-3, TSU-Pr1, and DU-145 were transfected with a plasmid containing the Krev-1 cDNA and a neomycin resistance gene. Selected G418-resistant clones were isolated and expanded into cell lines. All cloned transfectants exhibited a significant reduction in their in vitro growth rates, i.e., longer doubling times, when compared to the parental cell lines. Molecular analysis of the Krev-1 cloned transfectants revealed that they all contained variable copy numbers of the Krev-1 gene and expressed high levels of Krev-1 mRNA transcript, as shown by Southern and Northern analysis, respectively. To determine whether the biological properties associated with tumorigenicity were changed in these Krev-1 transfectants, their growth characteristics were examined on the basis of their ability to a) form colonies in soft agar, and b) produce tumors in SCID mice. The majority of the Krev-1 transfectants from the PC-3 and TSU-Pr1 cell lines showed a substantially reduced ability to form colonies in soft agar and produced significantly smaller tumors when inoculated into SCID mice. In contrast, there was no significant reduction in the soft agar colony-forming ability or in vivo tumorigenicity of the DU-145 Krev-1 transfectants. These results suggest that the Krev-1 suppressor gene induces partial suppression of the malignant phenotype of human prostate cancer cells containing activated ras oncogenes.
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PMID:Partial growth suppression of human prostate cancer cells by the Krev-1 suppressor gene. 808 35

Prostatic secretions are formed by glands composed of basal and luminal cells and surrounded by a basal lamina. The normal basal cells express several integrins (extracellular matrix receptors) including alpha 2, 3, 4, 5, 6, v, beta 1 and beta 4. These integrin units are polarized at the base of the cells adjacent to the basal lamina. The integrin alpha 6 beta 4 is associated with hemidesmosomal-like structures. The natural history of prostate cancer involves the presence of prostatic intraepithelial neoplasia (PIN) lesions (considered precursor lesions), carcinoma in situ and invasive carcinoma. Hemidesmosomal proteins and the alpha 3 beta 1 and alpha 6 beta 1 integrins (laminin receptors) are retained in the early PIN lesions. Expression of the integrins alpha 2, alpha 4, alpha 5, alpha v and beta 4 is lost in carcinoma. The alpha 3 beta 1 and alpha 6 beta 1 integrins remain associated with invasive carcinoma, the latter being predominant. Integrin expression in carcinoma is diffuse in the plasma membrane and not restricted to the basal aspects of the cell. The alpha 6 beta 1 integrin is fully functional as judged by an ability to adhere to laminin and contains the wild type alpha 6A cytoplasmic signaling domain. The alpha 6 beta 1 integrin is a leading candidate for conferring the invasive phenotype in prostatic carcinoma. Tumor cells with high expression of alpha 6 integrin are more invasive when tested in a SCID mouse model system. Following intraperitoneal injection, the human tumor cells invade the mouse diaphragm and move through the muscle on the surface of the laminin coated muscle cells. Our current working hypothesis is that the production of alpha 6 beta 1 and laminin in human tumor cells contributes to the invasive phenotype. Invasion could occur on the surfaces of laminin coated structures such as the nerves, blood vessels or muscle and account for the known patterns of human prostate tumor progression. Blockage of the expression or function of alpha 6 beta 1 or laminin or preventing the loss of beta 4 would be essential steps in confining the carcinoma to the prostate gland where conventional treatment has already proven effective.
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PMID:The alpha 6 beta 1 and alpha 6 beta 4 integrins in human prostate cancer progression. 854 70

Prostate cancer is the most common non-skin malignancy, yet the biological and molecular characteristics of the disease remain only poorly understood. One of the many reasons for this is that there are so few animal or human laboratory models of prostate cancer. Prostate cancer rarely arises spontaneously in animals, and the human cancer is unusually hard to grow in culture or as xenografts even short-term. The prostate cancer models that do exist are basically rodent models, human cell lines, human xenografts, and gene transfer and transgenic models. Many laboratories have put great effort into developing prostate cancer models, without much success. These efforts recently have been forced to be curtailed, primarily due to a lack of funding. There is good reason to believe, however, that propagation of metastatic tissue will be much more successful. At the University of Washington, the Prostate Cancer Donor Program, organized in a manner similar to existing methods for cadaver organ harvest, has been instituted to help recruit patients for these approaches. Prospects for success of model development also have been improved because of advances in techniques for the maintenance of severe combined immunodeficiency disease mice or nude mice.
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PMID:Preclinical models of prostate cancer. 899 84

Prostate cancer mortality results from metastasis to bone and hormone-independent tumor growth. Models to study these progressive changes are lacking. Here we describe the propagation of advanced human prostate cancer by direct transfer of surgical samples from patients into immune-deficient male SCID mice. Explants from six of eight patients formed prostate tumors and two showed unique cytogenetic, biologic and molecular features that were retained through six or more passages. One grew in an androgen-independent fashion, whereas the second formed tumors that regressed following castration then regrew. Micrometastatic disease was detected in the hematopoietic tissues of half of the recipient mice. Thus selected specimens of advanced human prostate cancer can be propagated in SCID mice in a manner that recapitulates the clinical transition from androgen-sensitive to androgen-independent growth, accompanied by micrometastasis.
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PMID:Progression of metastatic human prostate cancer to androgen independence in immunodeficient SCID mice. 909 73

Several metastasizing murine and human animal models for prostate cancer are available. However, these models are androgen-independent and lack differentiated features such as androgen receptor and androgen-regulated gene expression like prostate-specific antigen (PSA). The objective of this study was to develop a metastasizing prostate cancer model with differentiated features using the human LNCaP cell line. Athymic and SCID mice were injected either s.c. or intraprostatically with 1 x 10(6) LNCaP cells. Changes in serum and tumor PSA mRNA levels were determined before and after castration to assess time to androgen-independent progression. Local tumor and metastatic growth was assessed at sacrifice after 12 weeks. Reverse transcription-PCR (RT-PCR) was used to detect circulating LNCaP cells. LNCaP tumor incidence after s.c. injection was 100% (65 of 65) in SCID mice and 80% in athymic mice. No lymph node or distant metastases were observed with s.c. tumors, and RT-PCR for PSA transcripts was negative. Primary tumor incidence after intraprostatic injection was 89% (39 of 44) in SCID mice and 60% in athymic mice. In 10 SCID mice with primary tumors followed for 12 weeks, retroperitoneal or mediastinal lymph node metastases were found in 100%, and microscopic pulmonary metastases were identified in 40%. RT-PCR for PSA transcripts was positive in 3 of 10 mice tested. Serum PSA levels in mice with s.c. and intraprostatic tumors decreased by 65% to nadir levels at 7 and 4 days after castration, respectively. Serum PSA and LNCaP tumor PSA mRNA levels increased to precastration levels earlier in SCID mice with intraprostatic tumors compared to those with s.c. tumors. Intraprostatic injection of LNCaP cells in SCID mice provides a useful animal model to investigate mechanisms of metastasis and to evaluate therapies targeted toward inhibiting the metastatic cascade.
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PMID:A metastatic and androgen-sensitive human prostate cancer model using intraprostatic inoculation of LNCaP cells in SCID mice. 910 64

Androgen independent prostate cancer is recognized as a chemotherapy resistant disease. Human prostate carcinoma DU-145, LNCaP and PC-3 cells in monolayer in exponential growth were exposed to various concentrations of melphalan, 4-hydroperoxycyclophosphamide or adriamycin for 1 hour. These cells were all responsive to the drugs, with DU-145 cells being the least sensitive and PC-3 cells the most sensitive. When the three human prostate carcinoma cell lines were grown as xenografts in nude or SCID mice and the animals treated with single doses of melphalan, cyclophosphamide or adriamycin, the tumors were not very responsive to the drugs. The DU-145 tumors were highly resistant to each drug. The PC-3 tumors were more sensitive; however, even the PC-3 tumors were less drug responsive than several murine tumors. All three prostate cell lines secreted transforming growth factor-beta (TGF-beta) into the cell culture medium, and when grown as xenograft tumors increased the plasma levels of TGF-beta in the animals. DU-145 cells produced the most TGF-beta and LNCaP cells produced the least. After administration of single doses of each of the chemotherapeutic agents to animals bearing the prostate carcinoma xenografts, there was a time dependent increase in plasma TGF-beta that was greatest in animals bearing the DU-145 tumor and least in animals bearing the LNCaP tumor. Immunohistochemical staining, showed that PC-3 tumors tended to have the most intense staining for TGF-beta and LNCaP tumors the least. In situ hybridization for TGF-beta mRNA showed an increase in TGF-beta mRNA that was time independent after chemotherapy administration in all three tumors. These results support the hypothesis that the drug resistance of prostate carcinoma is manifest in vivo, and that in vivo high levels of TGF-beta may protect these tumors from cytotoxic cancer therapies.
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PMID:Prostate carcinoma response to cytotoxic therapy: in vivo resistance. 950 95


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