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)

Prostate-specific antigen (PSA) is a widely used serum marker for prostate cancer, but has limited specificity for distinguishing early prostate cancer(PCa) from benign disease since serum PSA can leak from both tumor and prostate tissues with benign disease. Molecular forms of free PSA have been identified that are associated with either benign or malignant prostate tissues. BPSA is a form of free PSA that is associated with benign prostatic hyperplasia(BPH), the predominant benign disease in men. The inactive precursor of PSA, proPSA, is associated with prostate tumors. We have developed research immunoassays with high sensitivity and specificity for BPSA and proPSA. Each of these PSA forms can range from 0-50% of the free PSA in individual serum samples in the total PSA range of 2-10 ng/ml. Typically, BPSA represents from 20-30% of the free PSA in serum, while proPSA ranges from 30-40% of the free PSA. ProPSA greatly improves the early detection of cancer in men with less than 4 ng/ml total PSA. More importantly, proPSA is more highly associated with aggressive cancers than other PSA forms such as PSA-ACT and free PSA. The BPH-associated BPSA and cancer-associated proPSA forms are complementary and provide improved detection of prostate cancer from benign disease.
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PMID:Tumor-associated forms of prostate specific antigen improve the discrimination of prostate cancer from benign disease. 1513 20

An evolutionary recombination hotspot around the GSDML-GSDM locus at human chromosome 17q21 is closely linked to an oncogenomic recombination hotspot around the PPP1R1B-STARD3-TCAP-PNMT-PERLD1 (MGC9753)-ERBB2-C17orf37 (MGC14832)-GRB7 locus at human chromosome 17q12. Here, we identified DFNA5L (GSDMDC1) gene related to GSDM and GSDML genes by using bioinformatics. Human DFNA5L gene at chromosome 8q24.3 was linked to ZC3HDC3, PP3856, EEF1D, and TIGD5 genes. NM_024736.4 (AK127941.1), AK022212.1, BC008904.2, and BC069000.1 cDNAs were derived from human DFNA5L gene. BC008904.2 was the representative human DFNA5L cDNA, while NM_024736.4 was an aberrant human DFNA5L cDNA with frame shifts due to the retention of introns 1, 3, 4, 5 and 8. Human DFNA5L mRNA was expressed in placenta, pancreatic cancer, prostate cancer, melanoma, salivary gland tumor, Jarkat T cells, and Ramos B cells. Complete coding sequence of rat Dfna5l cDNA was determined by assembling 11 exons of rat Dfna5l gene within AC120830.4 genome sequence, and that of mouse Dfna5l cDNA was derived from 1810036L03 (NM_026960.1). Exon-intron boundaries were conserved among human DFNA5L and rodent Dfna5l genes. Human DFNA5L (484 aa) showed 59.5% total-amino-acid identity with rat Dfna5l (488 aa), and 58.7% total-amino-acid identity with mouse Dfna5l (487 aa). DFNA5L orthologs were DNFA5 (GSDM) domain containing DFNA5 DC or GSDMDC proteins with Coiled-coil and Leucine zipper domains. Human DFNA5L, GSDM, GSDML, MLZE, DFNA5 and their mammalian orthologs were found to constitute the DFNA5 DC (GSDMDC) family. Because DFNA5 and MLZE are cancer-associated genes, DFNA5L, GSDM, and GSDML are predicted cancer associated genes.
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PMID:Identification and characterization of human DFNA5L, mouse Dfna5l, and rat Dfna5l genes in silico. 1528 81

This manuscript reviews the theories behind the propensity of prostate cancer to cause bone metastases and skeletal implications of the prostate cancer biology and treatment modalities. The escape of tumor cells from the primary tumor in the prostate to secondary tumor sites in the axial skeleton probably occurs before the primary tumor is detected. Several theories offer explanations for the observed proclivity of prostate tumors to selectively colonize the axial skeleton. The interaction between the tumor cells and cells that populate bone marrow, in particular osteoblasts and osteoclasts, is important for creating a 'fertile' environment where tumor cells can establish and grow. Prostate cancer cells are capable of producing growth factors that can affect both osteoblasts, resulting in osteoblastic bone formation, and osteoclasts, resulting in excessive bone resorption. In addition to the capability to progress from testosterone-dependent to testosterone-independent phenotype, the hallmark of metastatic prostate cancer is osteosclerosis similar to one induced experimentally in nude rats using CWR22 human prostate cancer cell line. Metastatic bone disease caused by excessive bone formation and bone resorption is the major cause of morbidity in patients with prostate cancer. The most common symptoms include pain, pathological fractures, spinal cord compression, cranial nerve palsies, bone marrow suppression and hypercalcemia. The introduction of prostate-specific antigen in clinical practice created a shift to where more prostate cancer patients with early disease receive androgen ablation treatment, which in return causes more bone loss and cancer-associated osteoporosis. Introduction of third generation bisphosphonates to treat skeletal consequences of malignancy further stressed the important interaction between the bone marrow stroma and cancer cells. Nevertheless, animal models and human prostate tumor cell lines that mimic all aspects of skeletal conditions in prostate cancer patients including osteoblastic bone response are needed to develop and screen for novel therapeutic and diagnostic modalities.
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PMID:Skeletal implications of prostate cancer. 1575 51

Gene modification of tumor cells is commonly utilized in various strategies of immunotherapy preventive both as treatment and a means to modify tumor growth. Gene transfer prior to surgery as neoadjuvant therapy has not been studied systematically. We addressed, whether direct intra-tumoral injection of a recombinant adenovirus expressing the immunomodulatory molecule, heat shock protein 72 (ADHSP72), administered prior to surgery could result in sustainable anti-tumor immune responses capable of affecting tumor progression and survival in a number of different murine and rat tumor models. Using intra-dermal murine models of melanoma (B16), colorectal carcinoma (CT26), prostate cancer (TrampC2) and a rat model of glioblastoma (9L), tumors were treated with vehicle or GFP expressing adenovirus (ADGFP) or ADHSP72. Tumors were surgically excised after 72 h. Approximately 25-50% of animals in the ADHSP72 treatment group but not in control groups showed sustained resistance to subsequent tumor challenge. Tumor resistance was associated with development of anti-tumor cellular immune responses. Efficacy of ADHSP72 as neoadjuvant therapy was dependent on the size of the initial tumor with greater likelihood of immune response generation and tumor resistance associated with smaller tumor size at initial treatment. ADHSP72 neoadjuvant therapy resulted in prolonged survival of animals upon re-challenge with autologous tumor cells compared to ADGFP or vehicle control groups. To study the effects on tumor progression of distant metastases, a single tumor focus of animals with multifocal intra-dermal tumors was treated. ADHSP72 diminished progression of the secondary tumor focus and prolonged survival, but only when the secondary tumor focus was <50 mm3 . Our results indicate that gene modification of tumors prior to surgical intervention may be beneficial to prevent recurrence in specific circumstances.
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PMID:Anti-tumor immune responses following neoadjuvant immunotherapy with a recombinant adenovirus expressing HSP72 to rodent tumors. 1588 53

In this report, we challenge a common perception that tumor embolism is a size-limited event of mechanical arrest, occurring in the first capillary bed encountered by blood-borne metastatic cells. We tested the hypothesis that mechanical entrapment alone, in the absence of tumor cell adhesion to blood vessel walls, is not sufficient for metastatic cell arrest in target organ microvasculature. The in vivo metastatic deposit formation assay was used to assess the number and location of fluorescently labeled tumor cells lodged in selected organs and tissues following intravenous inoculation. We report that a significant fraction of breast and prostate cancer cells escapes arrest in a lung capillary bed and lodges successfully in other organs and tissues. Monoclonal antibodies and carbohydrate-based compounds (anti-Thomsen-Friedenreich antigen antibody, anti-galectin-3 antibody, modified citrus pectin, and lactulosyl-l-leucine), targeting specifically beta-galactoside-mediated tumor-endothelial cell adhesive interactions, inhibited by >90% the in vivo formation of breast and prostate carcinoma metastatic deposits in mouse lung and bones. Our results indicate that metastatic cell arrest in target organ microvessels is not a consequence of mechanical trapping, but is supported predominantly by intercellular adhesive interactions mediated by cancer-associated Thomsen-Friedenreich glycoantigen and beta-galactoside-binding lectin galectin-3. Efficient blocking of beta-galactoside-mediated adhesion precludes malignant cell lodging in target organs.
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PMID:Mechanical entrapment is insufficient and intercellular adhesion is essential for metastatic cell arrest in distant organs. 1596 4

The rationale for locoregional staging lymphadenectomy in prostate cancer lies in the accurate diagnosis of occult micrometastases in order to stratify patients who might benefit from adjuvant therapeutic measures. In prostate cancer, extended pelvic lymphadenectomy (EPLA) including the lymphatic tissue along the common iliac region with the ureteral crossing as cranial margin, external and internal iliac region and the obturator fossa, has been shown to increase the yield of both total lymph nodes and lymph node metastases significantly. The total number of lymph nodes removed is about 2- to 3-fold higher and the frequency of micrometastatic lymph nodes is approximately 2-fold higher compared to standard lymphadenectomy. Furthermore, the frequency of observed positive lymph nodes in clinically localized and locally advanced prostate cancer is significantly higher than predicted by nomograms such as Partin tables and CART analysis. Although there are no prospective randomized trials demonstrating a survival benefit associated with EPLA, there might be an advantage for those with minimal lymph node involvement. Progression-free survival is significantly improved in patients undergoing EPLA with a 35 % benefit compared to standard lymphadenectomy. Various studies have documented an equal risk of cancer-associated mortality in patients with no or only 1 - 2 positive lymph nodes. Since the surgery-associated morbidity of EPLA is not increased as compared to standard lymphadenectomy, EPLA should be favoured at least for all intermediate and high risk patients undergoing radical prostatectomy; in low risk patients the option of EPLA has to be discussed thoroughly. For the future, ongoing prospective trials have to demonstrate a clear benefit in terms of biochemical-free and cancer-specific survival. With regard to muscle-invasive bladder cancer, it has been shown that lymph node dissection along the external, internal and common iliac artery and obturator fossa achieves accurate data for a valid locoregional staging. Only if frozen section analysis reveals metastatic deposits along these areas an extension of the lymphadenectomy including the aortic bifurcation up to the inferior mesenteric artery seems to be of additional diagnostic value. Various studies have demonstrated that extended pelvic lymphadenectomy results in an improvement of progression-free survival, however no significant benefit with regard to cancer-specific and overall survival has been demonstrated. Nevertheless, pelvic lymphadenectomy remains one of the most significant prognosticators with regard to relapse rates as has been demonstrated recently and, therefore, it should be performed thoroughly and anatomically adequate.
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PMID:[The role of pelvic lymphadenectomy in the therapy of prostate and bladder cancer]. 1600 37

CaSm (cancer-associated Sm-like) was originally identified based on elevated expression in pancreatic cancer and in several cancer-derived cell lines. CaSm encodes a 133 amino acid protein that contains two Sm motifs found in the common small nuclear RNA proteins and the LSm (like-Sm) family of proteins. Compared with normal human prostate tissue and primary prostate epithelial cells, some primary prostate tumors and prostate cancer-derived cell lines have elevated CaSm expression. Expression of antisense CaSm RNA in DU145 cells results in reduced CaSm protein levels and less transformed phenotype, measured by anchorage-independent growth in vitro and tumor formation in severe combined immunodeficient mice in vivo. Additional data shows that adenoviral delivery of antisense CaSm inhibits the growth of prostate cancer cell lines by altering cell cycle progression, and is associated with reduced expression of cyclin B1 and CDK1 proteins. Consistent with failure of antisense-treated cells to enter mitosis, microarray analysis identified altered expression of NEK2 and nucleophosmin/B23. Although the mechanisms by which CaSm contributes to neoplastic transformation and cellular proliferation are unknown, it has been shown that the yeast homologue (spb8/LSm1) of CaSm is required for 5' to 3' degradation of specific mRNAs. We provide data consistent with a similar role for CaSm in human cells, supporting the hypothesis that elevated CaSm expression observed in cancer leads to destabilization of multiple gene transcripts, contributing to the mutator phenotype of cancer cells.
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PMID:CaSm-mediated cellular transformation is associated with altered gene expression and messenger RNA stability. 1602 24

Our previous studies have defined reactive stroma in human prostate cancer and have developed the differential reactive stroma (DRS) xenograft model to evaluate mechanisms of how reactive stroma promotes carcinoma tumorigenesis. Analysis of several normal human prostate stromal cell lines in the DRS model showed that some rapidly promoted LNCaP prostate carcinoma cell tumorigenesis and others had no effect. These differential effects were due, in part, to elevated angiogenesis and were transforming growth factor (TGF)-beta1 mediated. The present study was conducted to identify and evaluate candidate genes expressed in prostate stromal cells responsible for this differential tumor-promoting activity. Differential cDNA microarray analyses showed that connective tissue growth factor (CTGF) was expressed at low levels in nontumor-promoting prostate stromal cells and was constitutively expressed in tumor-promoting prostate stromal cells. TGF-beta1 stimulated CTGF message expression in nontumor-promoting prostate stromal cells. To evaluate the role of stromal-expressed CTGF in tumor progression, either engineered mouse prostate stromal fibroblasts expressing retroviral-introduced CTGF or 3T3 fibroblasts engineered with mifepristone-regulated CTGF were combined with LNCaP human prostate cancer cells in the DRS xenograft tumor model under different extracellular matrix conditions. Expression of CTGF in tumor-reactive stroma induced significant increases in microvessel density and xenograft tumor growth under several conditions tested. These data suggest that CTGF is a downstream mediator of TGF-beta1 action in cancer-associated reactive stroma and is likely to be one of the key regulators of angiogenesis in the tumor-reactive stromal microenvironment.
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PMID:Stromal expression of connective tissue growth factor promotes angiogenesis and prostate cancer tumorigenesis. 1620 60

Cancers of the prostate contribute substantial morbidity and mortality to the male population. The correlation of prostate cancer incidence with aging suggests that the disease burden associated with prostate carcinoma will increase dramatically over the next several decades. Despite the large number of fatalities directly linked to prostate cancer, most men harboring the disease will die of other causes. This fact poses substantial dilemmas for screening programs designed to diagnose cancers at an early stage, as the optimal approach also would provide guidance as to which cancers could or should be observed, versus those malignancies that require curative therapy, and whether localized treatments are sufficient or if additional systemic interventions are indicated. To address these issues, substantial resources have been focused on the identification of biomarkers capable of specifically and sensitively diagnosing prostate cancers and providing prognostic information. However, the discovery and use of biomarkers must contend with the complexity and heterogeneity of body fluids and tissues. This review describes approaches that use cell type-specific analysis methods to identify cancer-associated features with the potential of distinguishing individuals with cancer of the prostate.
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PMID:Cell type-specific analyses for identifying prostate cancer biomarkers. 1648 Jun 70

For prostate cancer patients with small, lower-grade tumors, expectant management with delayed surgical intervention (active surveillance) is a rarely used therapeutic option because the opportunity for cure may be lost. We compared outcomes of 38 patients with small, lower-grade prostate cancer in an expectant management program who underwent delayed surgical intervention at a median of 26.5 months (95% confidence interval [CI] = 17 to 32 months; range = 12.0-73.0 months) after diagnosis with 150 similar patients who underwent immediate surgical intervention at a median of 3.0 months (95% CI = 2 to 4 months; range = 1.0-9.0 months) after diagnosis. Noncurable cancer was defined as adverse pathology associated with a less than 75% chance of remaining disease-free for 10 years after surgery. Noncurable cancer was diagnosed in nine (23%) of the 38 patients in the delayed intervention cohort and in 24 (16%) of the 150 men in the immediate intervention group. After adjusting for age and prostate-specific antigen (PSA) density (i.e., PSA value divided by prostate volume) in a Mantel-Haenszel analysis, the risks of noncurable cancer associated with delayed and immediate intervention did not differ statistically significantly (relative risk = 1.08, 95% CI = 0.55 to 2.12; P = .819, two-sided Cochran-Mantel-Haenszel statistic). Age, PSA, and PSA density were all statistically significantly associated with the risk of noncurable cancer (P = .030, .013, and .008, respectively; two-sided chi-square test). Thus, delayed prostate cancer surgery for patients with small, lower-grade prostate cancers does not appear to compromise curability.
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PMID:Delayed versus immediate surgical intervention and prostate cancer outcome. 1650 32


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