UMLS:C0600139 - FACTA Search

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Query: UMLS:C0600139 (Prostate Cancer)
4,540 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined expression of prostate-specific membrane antigen (PSM) mRNA in normal prostate using reverse transcription-PCR and sequencing. An alternatively spliced variant, PSM', along with the previously described PSM form, was found in normal prostate. PSM' cDNA is shorter (2387 nucleotides) than PSM (2653 nucleotides). The cDNAs are identical except for a 266-nucleotide region near the 5' end of PSM cDNA (nucleotide 114-380) that is absent from PSM'. This deleted region includes the translation initiation codon and codons for the putative transmembrane domain of PSM. Thus, PSM' RNA codes for a protein that has no apparent signal sequence. We verified the existence of spliced mRNA variants in human primary tissue specimens by RNase protection assay. In LNCaP human prostatic cancer cells and in primary prostate tumors, PSM is the dominant form. In contrast, normal human prostate expressed more PSM' than PSM. Benign prostatic hypertrophy samples showed about equal expression of both variants. We quantified the relative expression of each variant by densitometry and compiled a tumor index, which is the ratio of PSM:PSM' level. LNCaP has an index ranging from 9-11, carcinoma of the prostate from 3-6, benign prostatic hypertrophy from 0.75-1.6, and normal prostate from 0.075-0.45. The index reflects the increased expression of PSM over PSM' following the progression from normal to tumor state. This tumor index may be a useful indicator for the measurement of tumor progression. PSM and PSM' may be functionally different proteins as a result of differences in structure or cellular location. We are investigating the prevalence of one form over the other and how it may influence tumor progression.
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PMID:Alternatively spliced variants of prostate-specific membrane antigen RNA: ratio of expression as a potential measurement of progression. 788 49

Vaccine therapy may provide an alternative for prostate cancer patients whose disease no longer responds to hormone therapy. Administration of dendritic cells pulsed with prostate-specific membrane antigen (PSMA) induces cellular immune responses against the tumor with virtually no adverse effects. About 30% of the evaluable patients were identified as partial responders, based on the National Prostate Cancer Project (NPCP) criteria. In addition, there was a 50% decrease of serum prostate-specific antigen or resolution of previously measurable lesions on imaging. Dendritic cell vaccine therapy may have a synergistic effect, when combined with other therapies.
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PMID:Vaccine therapy for prostate cancer. 1036 59

Prostatic small cell carcinoma is an aggressive subtype of prostate cancer that usually appears as a progression of the original adenocarcinoma. We describe here the WISH-PC2, a novel neuroendocrine xenograft of small cell carcinoma of the prostate. This xenograft was established from a poorly differentiated prostate adenocarcinoma and is serially transplanted in immune-compromised mice where it grows within the prostate, liver, and bone, inducing osteolytic lesions with foci of osteoblastic activity. It secretes to the mouse Chromogranin A and expresses prostate plasma carcinoma tumor antigen-1, six-transmembrane epithelial antigen of the prostate, and members of the Erb-B receptor family. It does not express prostate-specific antigen, prostate stem cell antigen, prostate-specific membrane antigen, and androgen receptor, and it grows independently of androgen. Altogether, WISH-PC2 provides an unlimited source in which to study the involvement of neuroendocrine cells in the progression of prostatic adenocarcinoma and can serve as a novel model for the testing of new therapeutic strategies for prostatic small cell carcinoma.
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PMID:WISH-PC2: a unique xenograft model of human prostatic small cell carcinoma. 1111 33

Radioimmunoscintigraphy using a radio-labelled antibody to prostate-specific membrane antigen (PSMA) has growing applications as a means of tissue-specific imaging based on functional characteristics and complements traditional staging investigations. Clinical applications in men with carcinoma of the prostate are being refined, and this study reports outcomes with this technique in our practice. Prostatic immunoscintigraphy scans were performed with In-111 CYT 356 in 49 men with carcinoma of the prostate, obtaining sequential images in two and three dimensions at 10 min, 24 and 48 h. Of the 49 men, 36 had clinically localized cancer, 10 had recurrent disease after radical radiotherapy or radical prostatectomy and three had rising PSA after primary endocrine treatment. Scan findings are discussed in the context of clinical management. Of the 36 men with clinically localized cancer, seven had increased uptake in regional and distant lymph nodes. Of these seven, three were treated with hormone manipulation, two by radical prostatectomy and two by radical radiotherapy. Among 10 patients who had recurrence after radical treatment of the primary tumour, scans showed local recurrence alone in four, and six had regional or distant metastases. Three patients treated with primary hormone manipulation had scans for rising PSA, and of these one had a positive regional node and two had distant soft tissue and bone metastases. In conclusion, prostatic radio-immunoscintigraphy scans highlight tissues involved by prostate cancer, including the prostate, lymph nodes, soft tissues and bone metastases as well as pelvic recurrence. Results may contribute to the clinical management of individual patients, although histological confirmation may be appropriate when considering alternative treatment. Prostate Cancer and Prostatic Diseases (2000) 3, 47-52
Prostate Cancer Prostatic Dis 2000 Jul
PMID:Imaging with prostate-specific membrane antigen (PSMA) in prostate cancer. 1249 62

Radical prostatectomy as a primary treatment for clinically localized prostate cancer has increased dramatically over the past decade due to prostate-specific antigen (PSA) screening and the awareness of the increased incidence of localized disease. Despite the stage migration to increase clinically localized disease, there are still vast numbers of men who harbor occult extraprostatic extension and develop recurrence after surgery. The study of molecular markers in the blood or tissue of surgical patients prior to treatment, called " molecular staging, " is the focus of this review. The reverse transcriptase- polymerase chain reaction (RT-PCR) test for PSA gene expression in peripheral blood or bone marrow has received considerable attention since its first report in 1992. The test detects messenger RNA species for prostate-specific/abundant genes such as PSA and prostate-specific membrane antigen. These messenger RNAs were not detected in normal blood or bone marrow, but were detected in some prostate cancer patients presumably due to circulating prostatic epithelial cells. These prostate epithelial cells are thought to be occult metastases cells, and early studies correlated a positive RT-PCR test with surgical pathology adverse features such as positive margins. Despite the many studies over the past few years, there have been inconsistent results, and the most recent studies have not been able to confirm clinical utility. Bone marrow RT-PCR has been more promising; however, it is still a research tool that needs further study. The study of molecular markers in tissue material, ie, prostate biopsy samples prior to radical prostatectomy, is problematic due to the sampling error inherent in a multifocal heterogeneous tumor such as prostate cancer. The tumor suppressor proteins p53 and p27, Bcl-2 oncoprotein, Ki-67 proliferation index protein, E-cadherin, and microvessel density have been assessed in preradical prostatectomy needle biopsy. Results have been conflicting, and none are yet accepted as a clinically useful marker. Current and future work is focusing on analysis of multiple gene expressions or proteins simultaneously via gene chip or proteomics technology. While these expression profiles might be of value in whole prostate surgical specimens where tissues are well characterized, it is unclear how this new technology will be applied to the needle biopsy samples. Although molecular staging of radical prostatectomy patients has been under study for a decade, all assays remain research tools. Still, this area holds great promise for improving the accuracy of staging and providing a more accurate prognosis of individual men with clinically localized prostate cancer.
Clin Prostate Cancer 2002 Jun
PMID:Molecular markers in prostate cancer: the role in preoperative staging. 1504 12

Limited options for the treatment of prostate cancer have spurred the search for new therapies. One innovative approach is the use of targeted alpha therapy (TAT) to inhibit cancer growth, using an alpha particle emitting radioisotope such as (213)Bi. Because of its short range and high linear energy transfer (LET), alpha-particles may be particularly effective in the treatment of cancer, especially in inhibiting the development of metastatic tumors from micro-metastases. Prostate-specific membrane antigen (PSMA) is expressed in prostate cancer cells and the neovasculature of a wide variety of malignant neoplasms including lung, colon, breast and others, but not in normal vascular endothelium. The expression is further increased in higher-grade cancers, metastatic disease and hormone-refractory prostate cancer (PCA). J591 is one of several monoclonal antibodies (mabs) to the extracellular domain of PSMA. Chelation of J591 mab with (213)Bi forms the alpha-radioimmunoconjugate (AIC). The objective of this preclinical study was to design an injectable AIC to treat human prostate tumors growing subcutaneously in mice. The anti-proliferative effects of AIC against prostate cancer were tested in vitro using the MTS assay and in vivo with the nude mice model. Apoptosis was documented using terminal deoxynucleotidyl transferase [TdT]-mediated deoxyuridinetriphosphate [dUTP] nick end-labeling (TUNEL) assay, while proliferative index was assessed using the Ki-67 marker. We show that a very high density of PSMA is expressed in an androgen-dependent human PCA cell line (LNCaP-LN3) and in tumor xenografts from nude mice. We also demonstrate that the AIC extensively inhibits the growth of LN3 cells in vitro in a concentration-dependent fashion, causing the cells to undergo apoptosis. Our in vivo studies showed that a local AIC injection of 50 microCi at 2 days post-cell inoculation gave complete inhibition of tumor growth, whereas results for a non-specific AIC were similar to those for untreated mice. Further, after 1 and 3 weeks post-tumor appearance, a single (100 microCi/100 microl) intra-lesional injection of AIC can inhibit the growth of LN3 tumor xenografts (volume<100 mm(3)) in nude mice. Tumors treated with AIC decreased in volume from a mean 46+/-14 mm(3) in the first week or 71+/-15 mm(3) in the third week to non-palpable, while in control mice treated with a non-specific AIC using the same dose, tumor volume increased from 42 to 590 mm(3). There were no observed side effects of the treatment. Because of its in vitro cytotoxicity and these anti-proliferative properties in vivo, the (213)Bi-J591 conjugate has considerable potential as a new therapeutic agent for the treatment of prostate cancer.
Prostate Cancer Prostatic Dis 2002
PMID:In vitro and preclinical targeted alpha therapy of human prostate cancer with Bi-213 labeled J591 antibody against the prostate specific membrane antigen. 1519 29

Prostate-specific membrane antigen (PSMA) is a target for immunotherapy of prostate cancer. It has been shown that antibodies against PSMA inhibited the in vivo growth of LNCaP tumor. In the present study, monoclonal antibodies against four epitopes in PSMA were raised. MAb 24.4E6 (IgG1), specific for the epitope (residues 638-657) in PSMA, significantly reduced the growth rate of established LNCaP tumor in SCID mice. Mouse IgG was detected in the tumor of mice treated with 24.4E6, but not with an unrelated MAb. These results suggest that this epitope may be the main target in PSMA for antibody therapy of prostate cancer.
Prostate Cancer Prostatic Dis 2005
PMID:Targeting epitopes in prostate-specific membrane antigen for antibody therapy of prostate cancer. 1617 7

Prostate-specific membrane antigen (PSMA) is a relatively omnipresent molecule with a multiplicity of functions and has been shown to be a reasonable target for immunologic approaches such as vaccines or more directed therapy with radioactively labeled monoclonal antibodies against PSMA. Given the abundance of various glycoprotein and carbohydrate antigens expressed on the surface of prostate cancer cells and cell lines, PSMA stands out as another self-antigen that is not only expressed on cancer cells but also on neovasculature. Although vaccines are varied in their design and target goal, recent technology has afforded researchers the opportunity to induce recruitment of multiple effector cell populations, cytokines, and factors that can elicit cellular and humoral responses. This review serves to present unique approaches in vaccine development that can induce immunologic responsiveness to PSMA with potential impact on disease progression.
Clin Prostate Cancer 2005 Sep
PMID:Prostate-specific membrane antigen vaccines: naked DNA and protein approaches. 1619 13

The introduction of prostate-specific antigen (PSA) revolutionized prostate cancer (PCa) screening and ushered the PSA era. However, its use as a screening tool remains controversial and changes in the epidemiology of PCa have strongly limited its prognostic role. Therefore, we need novel approaches to improve our ability to detect PCa and foretell the course of the disease. To improve the specificity of total PSA, several approaches based on PSA derivatives have been investigated such as age-specific values, PSA density (PSAD), PSAD of the transition zone, PSA velocity and assessment of various isoforms of PSA. With recent advances in biotechnology such as high-throughput molecular analyses, many potential blood biomarkers have been identified and are currently under investigation. Given the plethora of candidate PCa biomarkers, we have chosen to discuss a select group of candidate blood-based biomarkers including human glandular kallikrein, early prostate cancer antigens, insulin-like growth factor-I (IGF-I) and its binding proteins (IGFBP-2 and IGFBP-3), urokinase plasminogen activation system, transforming growth factor-beta1, interleukin-6, chromogranin A, prostate secretory protein, prostate-specific membrane antigen, PCa-specific autoantibodies and alpha-methylacyl-CoA racemase. While these and other markers have shown promise in early phase studies, no single biomarker is likely to have the appropriate degree of certainty to dictate treatment decisions. Consequently, the future of cancer prognosis may rely on small panels of markers that can accurately predict PCa presence, stage, metastasis, and serve as prognosticators, targets and/or surrogate end points of disease progression and response to therapy.
Prostate Cancer Prostatic Dis 2008
PMID:New circulating biomarkers for prostate cancer. 1799 18

This study was designed to investigate the prostate cancer-specific tumoricidal effect of the suicide gene, Escherichia coli uracil phosphoribosyltransferase (UPRT), driven by the human prostate-specific membrane antigen promoter/enhancer (PSMA(E/P)) in vitro. When transfected with PSMA(E/P)-EGFP (enhanced green fluorescence protein) (a plasmid construct with the green fluorescence protein gene driven by the PSMA(E/P)), only the androgen-responsive and PSMA-positive prostate cancer cell line, LNCaP, expressed GFP, indicating the specificity of the PSMA(E/P) activity in androgen-sensitive and PSMA-positive prostate cancer cells. Taking advantage of this prostate cancer-specific property of PSMA(E/P), we successfully introduced bacterial UPRT into LNCaP cells where the tumoricidal effect of 5-fluorouracil (5-FU) was significantly increased when compared with the cells without the exogenous UPRT. We conclude that the efficacy of 5-FU-based chemotherapy in prostate cancers can be significantly improved by targeted expression of the suicide gene UPRT under the control of PSMA(E/P).
Prostate Cancer Prostatic Dis 2009
PMID:Specific targeting of prostate cancer cells in vitro by the suicide gene/prodrug system, uracil phosphoribosyltransferase/5-fluorouracil, under the control of prostate-specific membrane antigen promoter/enhancer. 1862 8

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