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)

An effective tumor vaccine may be required to induce both CTLs and T-helper (Th) responses against tumor-associated antigens. CD4+ Th cells that recognize MHC class II-restricted epitopes play a central role in the initiation and maintenance of antitumor immune responses. Prostate-specific membrane antigen (PSMA) is highly expressed in prostate cancer and thus is a potential target for prostate cancer immunotherapy. In this study, we attempted to identify Th epitopes derived from PSMA for enhancing prostate cancer vaccine by eliciting PSMA-specific Th responses. We first screened a panel of six epitope peptide candidates selected with the TEPITOPE program and found that all six peptides induced peptide-specific T-cell proliferation from one or more donors with estimated T-cell precursor frequencies of 0-4.17 x 10(-6). We then established peptide-specific T-cell clones for five of these six peptides and demonstrated that the T-cell clone specific for the PSMA(459) epitope (NYTLRVDCTPLMYSL) can recognize processed antigens from recombinant PSMA proteins. The PSMA(459) peptide was found to induce CD4+ T-cell responses in healthy individuals and prostate cancer patients with different HLA-DR alleles. To test the potential clinical application, human HLA-DR4 transgenic mice were immunized with PSMA(459) peptide and we found that PSMA(459) peptide immunization activated T cells that specifically responded to antigenic peptides derived from PSMA proteins and PSMA-positive tumor. Thus, the naturally processed Th epitope PSMA(459) could be included in prostate tumor vaccines to enhance PSMA-specific CTL responses.
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PMID:Identification of MHC class II-restricted T-cell epitopes in prostate-specific membrane antigen. 1296 Jan 11

Prostate-specific membrane antigen (PSMA) is a transmembrane protein expressed at high levels in prostate cancer and in tumor-associated neovasculature. In this study, we report that PSMA is internalized via a clathrin-dependent endocytic mechanism and that internalization of PSMA is mediated by the five N-terminal amino acids (MWNLL) present in its cytoplasmic tail. Deletion of the cytoplasmic tail abolished PSMA internalization. Mutagenesis of N-terminal amino acid residues at position 2, 3, or 4 to alanine did not affect internalization of PSMA, whereas mutation of amino acid residues 1 or 5 to alanine strongly inhibited internalization. Using a chimeric protein composed of Tac antigen, the alpha-chain of interleukin 2-receptor, fused to the first five amino acids of PSMA (Tac-MWNLL), we found that this sequence is sufficient for PSMA internalization. In addition, inclusion of additional alanines into the MWNLL sequence either in the Tac chimera or the full-length PSMA strongly inhibited internalization. From these results, we suggest that a novel MXXXL motif in the cytoplasmic tail mediates PSMA internalization. We also show that dominant negative micro2 of the adaptor protein (AP)-2 complex strongly inhibits the internalization of PSMA, indicating that AP-2 is involved in the internalization of PSMA mediated by the MXXXL motif.
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PMID:A novel cytoplasmic tail MXXXL motif mediates the internalization of prostate-specific membrane antigen. 1452 23

While androgen deprivation has remained the cornerstone of therapy for advanced prostate cancer over the last 60 years, novel therapies are being developed that may expand upon currently available treatments. The identification of antigens expressed by prostate tissue and/or prostate cancer that are recognized by T cells creates opportunities to develop novel immunotherapeutic approaches, including tumor vaccines. Improved understanding of immune recognition and antigen presentation may lead to effective immunotherapies for prostate cancer. Identified proteins expressed in prostate cancer, including prostate-specific antigen (PSA), prostatic acid phosphatase (PAP), and prostate-specific membrane antigen (PSMA), have been used as immunologic targets for immunotherapy. Moreover, innovations in cancer genomics and proteomics will also aid in the identification of immunologic targets. Immunotherapy trials have already demonstrated evidence of not only immunogenicity, but also clinical efficacy, and future studies will be directed at capitalizing on these findings.
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PMID:Immunotherapy for prostate cancer. 1457 12

For the last 60 years, hormonal therapy has been the cornerstone of treatment of metastatic prostate cancer. Unfortunately, hormonal therapy is purely palliative and improved systemic therapies are necessary. Monoclonal antibodies (mAbs) have proven valuable in the treatment of several diseases including cancer. mAbs act by focusing an immune response on or by targeting delivery of highly cytotoxic agents to the cancer cells without targeting normal cells. Prostate-specific membrane antigen (PSMA) has been identified as an ideal antigenic target in prostate cancer. PSMA is the most well-established, highly restricted prostate cancer cell surface antigen. It is expressed at high density on the cell membrane of all prostate cancers, and after antibody binding, the PSMA-antibody complex is rapidly internalized along with any payload carried by the antibody. J591 is the first IgG mAb developed to target the extracellular domain of PSMA, and it has been deimmunized (humanized) to allow repeated dosing in patients. Three phase I studies are in progress, two using the beta-emitting radiometals yttrium 90 and lutetium 177, and a third using a cytotoxin (DM1) linked to J591. Imaging of patients after they have received radiolabeled J591 demonstrates excellent tumor targeting.
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PMID:Targeted systemic therapy of prostate cancer with a monoclonal antibody to prostate-specific membrane antigen. 1457 14

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

Suicide gene therapy has potential for the treatment of prostate cancer under conditions of androgen deprivation. We show here that the combination of promoter/enhancer of prostate-specific membrane antigen (PEPM) and the Cre-loxP system is a good method to express a suicide gene, namely herpes virus thymidine kinase (TK), in prostate cancer cells. We have examined this system in a castration model in vivo, in comparison with a prostate-specific antigen promoter/enhancer system (PP). In the castrated mice, the tumor luciferase activity with the combination of the PEPM plus the Cre-loxP system was about 50 times greater than that with the control GL3 plasmid. A similar increase was observed in non-castrated mice. In contrast, the luciferase activity of the plasmid PP was decreased significantly in tumors from castrated mice as compared with tumors from non-castrated control mice. Regarding the therapeutic effect, the combination plasmid PEPM-Cre plus CMV-loxP-TK exhibited a strong inhibitory effect on tumor growth in the castrated mice, as in the non-castrated mice. In contrast, PP-TK plasmid did not show any significant growth inhibition in the castrated mice. These findings indicate that the combination of PEPM and Cre-loxP system may have a good treatment effect under androgen ablation conditions in vivo, and our system may therefore be applicable to patients who have previously received androgen deprivation therapy.
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PMID:Treatment efficiency of a suicide gene therapy using prostate-specific membrane antigen promoter/enhancer in a castrated mouse model of prostate cancer. 1507 97

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


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