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)

The activity of folate conjugase (pteroylpolyglutamate hydrolase, EC 3.4.22.12) was measured in plasma from normal subjects and patients with breast cancer using pteroylglutamyl-gamma-glutamyl-gamma-(U14C) glutamate as the substrate. Conjugase assays also were performed on samples of breast-tumor tissue, normal breast, and fibroadenoma. When assayed at pH 4.5 and 7.4, mean plasma conjugase activity was significantly (p less than 0.05) elevated in a group of patients with anatomically proven metastatic disease (n = 21) when compared with control subjects (n = 12) and a group of patients (n = 13) with no clinical evidence of disease after mastectomies. Mean plasma conjugase activity assayed at pH 4.5 also was significantly higher in the metastatic disease group when compared with breast cancer patients before mastectomy (n = 9) and fibroadenoma patients before biopsy (n = 3). The specific activity of tissue conjugase assayed at pH 4.5 was significantly higher (p less than or equal to 0.05) in infiltrating ductal carcinoma than in normal adjacent breast tissue according to the Wilcoxon test for paired samples (n = 10).
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PMID:Folate conjugase activity in the plasma and tumors of breast-cancer patients. 303 25

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

Dendritic cells (DCs) are "professional" antigen-presenting cells capable of stimulating T-cell proliferation and cytotoxicity when loaded with and presenting specific antigens, including tumor antigens. We demonstrated the stimulation of an autologous cytotoxic T-cell response elicited by DC loaded with autologous tumor cell lysate derived from primary prostate tumor. A candidate tumor antigen is prostate-specific membrane antigen (PSMA), which is overexpressed in prostate cancer patients. We identified a HLA-A2 motif in PSMA, isolated patient DC, loaded peptide into DC, and stimulated autologous T cells to proliferate. The ability to use DC for presentation of either tumor or peptide antigen in an HLA-restricted fashion in order to stimulate T-cell proliferation and cytotoxicity demonstrates the potential of this technology for development of a prostate cancer vaccine.
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PMID:Presentation of prostate tumor antigens by dendritic cells stimulates T-cell proliferation and cytotoxicity. 854 83

The detection and elimination of minimal systemic disease in patients with solid tumors is one of the main current topics in clinical oncology. The present review focuses, therefore, on new diagnostic approaches to identify minimal disease in peripheral blood, bone marrow, and lymph nodes of patients with epithelial cancer as the major type of solid tumors in Western industrialized countries. These approaches may be used to improve tumor staging and monitoring of adjuvant therapies, as well as to detect tumor cell contamination in autologous stem cell grafts. Most investigators have developed either immunocytochemical assays with monoclonal antibodies to a variety of epithelial-specific cytoskeleton and membrane antigens or molecular methods based on the extensive amplification of a specific (c)DNA sequence by the polymerase-chain reaction (PCR). In immunocytochemical assays, antibodies to cytokeratins can be regarded as the most specific and sensitive probes to detect isolated epithelial tumor cells in bone marrow and blood. Molecular methods are based on the detection of either mutations in oncogenes and tumor suppressor genes (e.g., ki-ras and p53 genes) or the mRNA expression of tissue-specific and tumor-associated genes. mRNA species targeted in these assays encode cytokeratins, prostate-specific antigen, prostate-specific membrane antigen, carcinoembryonic antigen, and polymorphic-epithelial mucin. To introduce the available methods into clinical practice, standardized protocols need to be developed and validated in multi-center studies.
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PMID:Detection of minimal disease in patients with solid tumors. 887 11

We have cloned the gene encoding the prostate-specific membrane (PSM) antigen, which is recognized by the 7E11C-5 antibody. The antigen is strongly expressed in prostate cancer, and the antibody has been approved for use as an imaging agent for detection of prostatic cancer metastasis. The gene was unique and encoded a type II membrane protein. The only clue to its potential function was found in the cDNA coding sequences from 1250 to 1700, which had a modest but significant homology with transferrin-receptor, demonstrating a 54% homology of nucleic acid sequence. In comparing the mRNA obtained from normal prostate with that obtained from cancerous or lymph node carcinoma of the prostate (LNCaP) cells, normal cells produced a shorter alternative spliced species that encoded a cytosolic form of the protein, and not a membrane protein. It appeared that, as the prostatic cells became cancerous, there was a nearly 100-fold difference in expression of the ratio of the messages encoding the 2 forms, with the cytosolic form (PSM') predominant in normal cells and the membrane form (PSM) predominant in cancer cells. The other tissue in which the membrane antigen form of PSM is highly expressed is the membrane brush border of the small intestine of the proximal, but not distal, small intestine. This is the location of a unique membrane form of a folate hydrolase. This membrane folate hydrolase and its location are necessary in human nutrition because humans require folate, and the folate in foods is poly-gamma-glutamated. Polyglutamated folates cannot be taken into the cells by folate-transporter systems. The ability to take up folate from foods requires the membrane folate hydrolase to sequentially remove the gamma-linked glutamates, freeing folate that can then be transported. PSM antigen has a similar folate hydrolase activity. Others have reported finding an enzyme in the rat brain that functions as an alpha-neurocarboxypeptidase and acts on the abundant brain peptide N-acetylaspartylglutamate to generate glutamate and N-acetylaspartate. The 3'-end of the rat brain enzyme had 84% sequence homology with PSM antigen. Because this enzyme liberates glutamate in the brain, the enzyme is considered to have regulatory activity related to glutamate receptors. Current investigations are underway to determine whether glutamate receptors are present in prostate. Thus, PSM antigen is a unique folate hydrolase-carboxypeptidase that can release glutamate with either gamma-or alpha-linkage. Its enzymatic activity raises a number of questions for consideration. In the normal prostate where the protein is intracellular, is PSM' antigen keeping folate in nonglutamated forms? If so, folate should be able to readily diffuse out of prostate cells, making the prostate gland an organ at risk for localized folate deficiency and carcinogenesis. In prostate tumor cells, with the enzyme outside of the cell, can PSM antigen be used for the activation of cytotoxic prodrugs?
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PMID:Characterization and glutamyl preferring carboxypeptidase function of prostate specific membrane antigen: a novel folate hydrolase. 912 29

The PSM antigen is an exciting new molecule with many potentially valuable applications. Further research with PSM may help us to elucidate the complex process of prostatic neoplasia better. Current avenues of research with PSM include the generation of new and improved monoclonal antibodies targeting different portions of PSM and PSM', which may improve the results of imaging and targeting prostate cancer. Gene therapy using the PSM promoter to drive prostate-specific expression of various cytokines and other factors is another exciting potential application deserving of attention, and refinement of serum PSM assays may greatly add to the present array of diagnostic modalities offered to patients with suspected prostate cancer. Thus, PSM is a potentially valuable addition to our armamentarium of prostate markers. Additionally, a host of other potential markers to increase our understanding of the complex biology of the normal and malignant prostate are on the horizon. Just how far away that horizon is awaits further basic and clinical investigations.
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PMID:Prostate-specific membrane antigen and other prostatic tumor markers on the horizon. 912 42

The widespread use of prostate-specific antigen (PSA) has revealed that radiation therapy cures adenocarcinoma of the prostate less frequently than previously believed. Biologic factors (such as the complex nature of this disease) and technical factors (geographic miss, inadequate dose to the tumor volume) affect the ability of radiation to effectively treat all patients with prostate cancer. To improve treatment outcome, patients with virulent forms of the disease must be identified. The use of prognostic markers (PSA, prostate-specific membrane antigen, prostate-specific antigen doubling time) and genetic markers (12 lipoxygenase, p53, bcl-2, ploidy) may aid in the development of treatments for these patients. Technical modifications have been made to increase the total dose delivered to the prostate and the accuracy of dose delivery. Brachytherapy, proton therapy and conformal radiation therapy have been used to increase the relative integral dose. Improved prostate targeting may be achieved with the use of fiducial markers, on-line portal imaging, and endorectal magnetic resonance imaging. High linear energy transfer radiation, radiosensitizers and altered fractionation have been used in an attempt to increase the biologic equivalent dose to the tumor. Lastly, hormonal therapy and chemotherapy have been shown to decrease tumor burden and improve local control. All of these methods may improve outcome in patients with adenocarcinoma of the prostate. However, further work must be completed to translate these methods into standards of care.
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PMID:A rational approach to the treatment of prostate cancer with radiation therapy: lessons for the future. 942 69

Defining the expression of tumor-associated antigens on primary and metastatic prostate cancer is the crucial first step in selecting appropriate targets for immune attack. In this study, the distribution of the tumor-associated antigens GM2, Tn, sTn, Thompson-Friedenreich antigen (TF), Globo H, Le(y), MUC1, MUC2, MUC3, MUC4, MUC5AC, MUC5B, MUC7, carcinoembryonic antigen, beta chain of human chorionic gonadotropin (hCG beta), HER2/neu, PSMA, and KSA on primary and metastatic prostate cancer and 16 types of normal tissues was compared by immunohistochemistry, using a panel of well-characterized monoclonal antibodies. Our results show that GM2, KSA, and MUC2 were strongly expressed on 8 or 9 of 9 metastatic prostate cancer biopsy specimens and, with PSMA, hCG beta, TF, Tn, and sTn, on 8 or more of 11 primary prostate cancer specimens. Tn, MUC1, and PSMA were expressed on 4-6 of 9 metastatic specimens. The remaining antigens were expressed on no more than three of nine metastatic specimens. Normal tissues were also tested with all antibodies. With regard to the eight antigens most widely expressed on prostate cancers, PSMA was not expressed significantly on any of the normal tissues except prostate epithelium. Tn, sTn, hCG beta, and MUC2 were detected on up to 3 of 10 types of normal epithelia. GM2, TF, MUC1, and KSA were more broadly distributed on normal epithelia, all primarily at the secretory borders. STn, KSA, and hCG beta were also detected in the testis, and GM2 was expressed on gray matter of brain. From the 30 antigens that we have screened, this study provides the basis for selecting GM2, TF, Tn, sTn, hCG beta, MUC1, MUC2, KSA, and PSMA as target antigens for specific immunotherapy of prostate cancer.
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PMID:Expression of potential target antigens for immunotherapy on primary and metastatic prostate cancers. 951 14

Nested reverse transcription (RT)-PCR for prostate-specific antigen (PSA) and prostate-specific membrane antigen (PSM) can detect circulating prostatic cells in patients with prostate cancer. We evaluated the role of a combined screening approach for PSA and PSM in prostate cancer staging. We examined the peripheral blood samples from 136 patients with adenocarcinoma of the prostate (PCA), 15 patients with benign prostatic hyperplasia, 15 normal male subjects, and 5 female subjects. The controls (benign prostatic hyperplasias, normal males, and normal females) were negative for both PSA and PSM. In patients with metastatic PCA (n = 11), 100% were positive by combined PSA/PSM (64% by PSA and 91% by PSM). In biochemical failure PCA patients (n = 18), 39% were positive by PSM, compared to only 6% by PSA. In patients with clinically localized PCA (n = 107), 48% were positive by combined PSA/PSM approach (43% by PSM and 14% by PSA). These results show that PSM is a more sensitive marker than PSA in detecting circulating prostatic cells (P < 0.0001). We correlated preoperative RT-PCR results with final pathological stages in 67 prostatectomy patients. RT-PCR positivity was 81.5% in patients with non-organ-confined disease versus 37.5% in organ-confined disease (P = 0.001). PSA/PSM RT-PCR had an odds ratio of 7.3 (95% confidence interval, 2.3-23.4; P = 0.001) in predicting tumor extracapsular extension. PSA/PSM RT-PCR was a better predictor of tumor extracapsular extension than initial serum PSA, clinical stage, and biopsy Gleason score. Our data show that PSA/PSM nested RT-PCR may provide the staging information unavailable from the current modalities. The ultimate impact of this technique in the management of patients with prostate cancer will require continued investigation.
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PMID:Combined nested RT-PCR assay for prostate-specific antigen and prostate-specific membrane antigen in prostate cancer patients: correlation with pathological stage. 953 48

Although adenocarcinoma of the prostate is recently becoming one of most common malignancies in Japanese men, it still poses many questions regarding its etiology, pathology, pathogenesis and clinical management. Many reports have been made on oncogene and tumor suppressor gene, however, frequent genetic alterations have not been identified during prostate cancer development. Loss of heterozygosity (LOH) on 8p might be an important event in the early stage of prostatic carcinogenesis, whereas alteration in 17p is now considered a late event. Numerous reports about the androgen receptor (AR) gene have revealed that mutations in the coding region of AR possibly results in an acquired resistance to androgen blockade therapy and anti-androgen withdrawal syndrome. It has been also shown that shorter CAG repeats of AR gene are associated with a higher risk of prostate cancer. Regarding molecular diagnosis, prostate-specific membrane antigen (PSM) appears to be a new molecule with many potentially valuable applications. PSM-reverse transcriptase-polymerase chain reaction (RT-PCR) is probably more sensitive and specific than PSA-RT-PCR to predict micrometastatic disease. Gene therapy based on the above molecular aspect is currently under investigation but not generally used yet.
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PMID:[Molecular biological aspect]. 961 16


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