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 prostate-specific membrane antigen (PSMA) is a well-characterized surface antigen, overexpressed in the most advanced, androgen-resistant human prostate cancer cells. We sought to exploit PSMA cell surface properties as a target for short peptides that will potentially guide protein-based therapeutics, such as viral vectors, to prostate cancer cells. Two separate phage display peptide strategies were applied, in parallel, to purified PSMA protein bound to two separate substrates. We reasoned that peptide sequences common to both substrate selections would be specific binders of PSMA. Additionally, the design allowed for stringent cross-selections, where phage populations from one selection condition could be applied to the alternative substrate. These strategies resulted in a series of phage displayed peptides able to bind to PSMA by ELISA and direct binding assays, both with purified protein and in prostate cancer cells. Cell binding is competitively inhibited by purified PSMA. The synthesized peptides are capable of enhancing PSMA carboxypeptidase enzymatic activity, suggesting protein folding stabilization. The discovery of these peptides provides the foundation for subsequent development of peptide targeted therapeutics against prostate cancer.
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PMID:Disulfide-constrained peptides that bind to the extracellular portion of the prostate-specific membrane antigen. 1514 Oct 17

Novel folate-linked, cationic nanoparticles (NPs) were developed and evaluated for potential use for gene delivery to human oral cancer (KB cells) and human prostate cancer (LNCaP cells), which abundantly expressed folate binding proteins. Folate-polyethylenglycol-distearoylphosphatidylethanolamine conjugate (f-PEG-DSPE) was incorporated in NPs composed of 3([N-(N',N'-dimethylaminoethane)-carbamoyl] cholesterol (DC-Chol) and Tween 80. NP-0.3FT, -1FT and -1FLT, which contain 0.3 and 1 mol% f-PEG2000-DSPE, and 1 mol% f-PEG5000-DSPE, respectively, showed about 100-200 nm in size. The NP/plasmid DNA complex (nanoplex) remained in an injectable size (230-340 nm) and slightly increased its size in serum. The association of NP-1FT with KB cells was enhanced by f-PEG2000-DSPE and was blocked by co-incubation with free folic acid in medium. In transfection activity, the NP-1FT, but not NP-1FLT, showed high activity into KB and LNCaP cells in the presence of serum. The NP-0.3FT also showed high activity into LNCaP cells, but not KB cells. In RT-PCR analysis, KB cells strongly expressed folate receptors mRNA, but LNCaP cells did not. In contrast, LNCaP cells expressed mRNA of prostate-specific membrane antigen (PSMA), which interacts with the folate substrate. Uptake mechanism of folate-linked NPs in LNCaP cells may be different from that in KB cells. This is the first report that folate-linked NPs selectively deliver the DNA to LNCaP cells, suggesting that such NPs are potentially targeted vectors to prostate cancer for gene delivery.
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PMID:Enhanced in vitro DNA transfection efficiency by novel folate-linked nanoparticles in human prostate cancer and oral cancer. 1514 14

Glutamate carboxypeptidase II (GCPII) is a membrane peptidase expressed in the prostate, central and peripheral nervous system, kidney, small intestine, and tumor-associated neovasculature. The GCPII form expressed in the central nervous system, termed NAALADase, is responsible for the cleavage of N-acetyl-L-aspartyl-L-glutamate (NAAG) yielding free glutamate in the synaptic cleft, and is implicated in various pathologic conditions associated with glutamate excitotoxicity. The prostate form of GCPII, termed prostate-specific membrane antigen (PSMA), is up-regulated in cancer and used as an effective prostate cancer marker. Little is known about the structure of this important pharmaceutical target. As a type II membrane protein, GCPII is heavily glycosylated. In this paper we show that N-glycosylation is vital for proper folding and subsequent secretion of human GCPII. Analysis of the predicted N-glycosylation sites also provides evidence that these sites are critical for GCPII carboxypeptidase activity. We confirm that all predicted N-glycosylation sites are occupied by an oligosaccharide moiety and show that glycosylation at sites distant from the putative catalytic domain is critical for the NAAG-hydrolyzing activity of GCPII calling the validity of previously described structural models of GCPII into question.
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PMID:Identification of the N-glycosylation sites on glutamate carboxypeptidase II necessary for proteolytic activity. 1515 93

Systemic chemotherapy can be associated with significant morbidity as a result of non-specific side effects and drug toxicity. A major advance in cancer therapy is the ability to target specific molecules and pathways due to increased knowledge of gene expression and biochemical function. In this issue of Cancer Biology & Therapy, a targeted approach to prostate cancer chemotherapy is explored using the inherent enzymatic activity of prostate-specific membrane antigen (PSMA) and peptide conjugated methotrexate. Substrate specificity and specific activity were determined using soluble PSMA while selective drug toxicity was determined using clonal inhibition of PSMA+ and PSMA- cancer cell lines. Peptide conjugates linked to methotrexate were identified with enhanced selective clonal inhibition in the presence of PSMA. Despite these promising results, multiple variables affecting clinical feasibility such as substrate stability and non-PSMA dependent drug uptake will require careful consideration before PSMA is ready for prime time as a selective chemotherapeutic target.
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PMID:Targeting prostate-specific membrane antigen in cancer therapy: can molecular medicine be brought to the surface? 1504 50

Human glutamate carboxypeptidase II (GCPII) is a co-catalytic metallopeptidase and its putative catalytic domain is homologous to the aminopeptidases from Vibrio proteolyticus and Streptomyces griseus. In humans, the enzyme is expressed predominantly in the nervous system and the prostate. The prostate form, termed prostate-specific membrane antigen, is overexpressed in prostate cancer and is used as a diagnostic marker of the disease. Inhibition of the form of GCPII expressed in the central nervous system has been shown to protect against ischemic injury in experimental animal models. Human GCPII consists of 750 amino acids, and six individual domains were predicted to constitute the protein structure. Here, we report the analysis of the contribution of these putative domains to the structure/function of recombinant human GCPII. We cloned 13 mutants of human GCPII that are truncated or extended at one or both the N- and C-termini of the GCPII sequence. The clones were used to generate stably transfected Drosophila Schneider's cells, and the expression and carboxypeptidase activities of the individual protein products were determined. The extreme C-terminal region of human GCPII was found to be critical for the hydrolytic activity of the enzyme. The deletion of as few as 15 amino acids from the C-terminus was shown to completely abolish the enzymatic activity of GCPII. Furthermore, the GCPII carboxypeptidase activity was abrogated upon removal of more than 60 amino acid residues from the N-terminus of the protein. Overall, these results clearly show that amino acid segments at the N- and C-termini of the ectodomain of GCPII are essential for its carboxypeptidase activity and/or proper folding.
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PMID:Amino acids at the N- and C-termini of human glutamate carboxypeptidase II are required for enzymatic activity and proper folding. 1520 43

Carcinoma of the prostate is the second leading cause of male cancer-related death in the United States. Better indicators of prostate cancer presence and progression are needed to avoid unnecessary treatment, predict disease course, and develop more effective therapy. Numerous molecular markers have been described in human serum, urine, seminal fluid, and histological specimens that exhibit varying capacities to detect prostate cancer and predict disease course. However, to date, few of these markers have been adequately validated for clinical use. The purpose of this review is to examine the current status of these markers in prostate cancer and to assess the diagnostic potential for future markers from identified genes and molecules that display loss, mutation, or alteration in expression between tumor and normal prostate tissues. In this review we cite 91 molecular markers that display some level of correlation with prostate cancer presence, disease progression, cancer recurrence, prediction of response to therapy, and/or disease-free survival. We suggest criteria to consider when selecting a marker for further development as a clinical tool and discuss five examples of markers (chromogranin A, glutathione S-transferase pi 1, prostate stem cell antigen, prostate-specific membrane antigen, and telomerase reverse transcriptase) that fulfill some of these criteria. Finally, we discuss how to conduct evaluations of candidate prostate cancer markers and some of the issues involved in the validation process.
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PMID:Detection of prostate cancer and predicting progression: current and future diagnostic markers. 1521 24

ProstaScint (CYT-356 or capromab pendetide, Cytogen) is an 111In-labeled monoclonal mouse antibody specific for prostate-specific membrane antigen, a prostate transmembrane glycoprotein that is upregulated in prostate adenocarcinoma. ProstaScint scans are US Food and Drug Administration approved for pretreatment evaluation of metastatic disease in high-risk patients. They are also approved for post-prostatectomy assessment of recurrent disease in patients with a rising prostate-specific antigen level. This review explores the literature on ProstaScint and its use in guiding the treatment of prostate cancer. A novel technique for identifying areas of cancer within the prostate using ProstaScint images fused with pelvic computed tomography scans is also described. The identification of areas of high antibody signal provides targets for radiotherapeutic dose escalation, with the overall goals of improving treatment outcome while preserving adjacent tissue structures and decreasing treatment morbidity.
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PMID:Role of ProstaScint for brachytherapy in localized prostate adenocarcinoma. 1522 91

Efforts are increasing to identify and evaluate diagnostic and therapeutic markers for prostate cancer patients. One of these, prostate-specific membrane antigen (PSMA), a transmembrane protein highly expressed in all types of prostatic tissue (eg, benign epithelium, benign prostatic hyperplasia, prostatic intra-epithelial neoplasia and adenocarcinomas, with increased binding affinity for malignant cells), is becoming an increasingly important diagnostic and therapeutic marker, not only for prostate cancer, but possibly for other malignant lesions. Recent studies have demonstrated PSMA expression in endothelial cells of tumor-associated neovasculature (including carcinoma of the colon, breast, bladder, pancreas, kidney and melanoma), thus greatly expanding its possible beneficial role, especially as new anti-PSMA mAbs continue to be developed and refined. Future diagnostic and therapeutic interventions utilizing these antibodies will become increasingly important in not only prostate cancer but perhaps many other different malignancy types.
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PMID:Monoclonal antibodies and prostate-specific membrane antigen. 1524 49

Prostate-specific antigen (PSA) has long been criticized for its lack of specificity in screening for the occurrence of prostate cancer. In this study, we tried to measure levels of another biomarker, prostate-specific membrane antigen (PSM), in the peripheral circulation from subjects with either prostate cancer or benign prostatic hyperplasia (BPH). Total RNA was extracted from blood samples of 70 patients with prostate cancer and 19 with BPH. Reverse transcription was performed to convert mRNA to cDNA. The cDNA was analyzed with a novel real-time quantitative polymerase chain reaction (PCR) protocol to measure PSM mRNA levels in the circulation. Melting curve analysis was adapted to assure that correct amplification data were obtained. Results showed that 41 of 70 prostate cancer patients had positive results, whereas 9 of 19 BPH cases were negative. Therefore, the sensitivity and specificity were determined to be 58.6% and 47.4%, respectively. For comparison, traditional nested PCR was performed to investigate whether the new method was superior. The sensitivity and specificity of nested PCR were determined to be 27.1% and 57.9%, respectively. The detection limits of these two methods were 0.0005 ng (for the real-time quantitative PCR method) and 0.5 ng of PSM-cDNA (for the nested PCR method). In conclusion, we have successfully developed a novel, noninvasive real-time quantitative PCR method to detect the PSM mRNA levels in the peripheral circulation of prostate cancer subjects. This method may provide references for urologists diagnosing prostate cancer or monitoring the patient's condition after treatment.
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PMID:The use of real-time quantitative PCR to detect circulating prostate-specific membrane antigen mRNA in patients with prostate carcinoma. 1525 56

Prostate-related antigens, including prostate-specific membrane antigen (PSMA) and prostatic acid phosphatase (PAP), can be targets in specific immunotherapy for prostate cancer. In this study, we attempted to newly identify epitope peptides from these 2 antigens, which are immunogenic in human histocompatibility leukocyte antigen (HLA)-A2+ prostate cancer patients. Twenty-nine peptides (PSMA with 15 and PAP with 14) were prepared based on the HLA-A2 binding motif. Based on our previous finding that antigenic peptides recognized by both cellular and humoral immune systems are useful for peptide-based immunotherapy, peptide candidates were screened first by their ability to be recognized by immunoglobulin G (IgG), and then by their ability to induce peptide-specific cytotoxic T lymphocytes (CTLs). As a result, PSMA441-450 and PAP112-120 peptides were found to be frequently recognized by IgG in plasma from prostate cancer patients. These 2 candidates effectively induced HLA-A2-restricted and prostate cancer-reactive CTLs in HLA-A2+ prostate cancer patients with several HLA-A2 subtypes. In addition, their cytotoxicity was mainly dependent on peptide-specific and CD8+ T cells. These results indicate that these PSMA441-450 and PAP112-120 peptides could be promising candidates for peptide-based immunotherapy for HLA-A2(+) prostate cancer.
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PMID:Prostate-related antigen-derived new peptides having the capacity of inducing prostate cancer-reactive CTLs in HLA-A2+ prostate cancer patients. 1528 44


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