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)

Inactivation of tumour suppressor gene function is a critical step in the development of human neoplasia. The Rb and CDKN2 tumour suppressor genes are inactivated in many tumour types, including the late stages of prostate cancer, and appear to function in the same suppressor pathway. p53, another major tumour suppressor is also mutated in a subset of advanced-stage prostate carcinomas. E-cadherin and other cell adhesion genes, which have been characterized as suppressors of the metastatic phenotype, are inactivated or downregulated during progression to advanced prostate cancer and have been associated with poor clinical outcome. The early genetic events involved a prostatic neoplasia are poorly understood, but loss of as yet undiscovered tumour suppressor genes may play a role in the initiation of this disease.
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PMID:Tumour suppressor genes in prostate cancer. 929 77

Urological malignancies kill over 16,000 people annually in England and Wales. There have been exciting recent developments in our understanding of the molecular pathogenesis of these diseases, although many questions remain unanswered. Three separate genes (WT1, WT2, and WT3) have been implicated in Wilms' tumour development. Patients with von Hippel-Lindau (VHL) syndrome develop renal cell carcinoma and it has been shown that VHL protein inhibits elongin, a cellular transcription factor which controls RNA elongation. Use of molecular markers to identify superficial bladder tumours likely to progress to muscle invasive disease has met with some success. Increased epidermal growth factor receptor (EGFR) and p53 expression, and decreased E-cadherin expression all correlate with tumour progression. Tumours in patients with carcinoma in situ have distinct molecular features. Androgen ablation delays disease progression in men with prostate cancer, but relapse is inevitable. Research has been directed towards elucidating the mechanisms by which prostate cancer 'escapes' hormonal control. Mutations in the androgen receptor have been identified. It is apparent that locally produced growth factors mediate androgen-dependent processes and these too have been implicated in prostate carcinogenesis.
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PMID:The molecular pathology of urological malignancies. 949 53

Prostatic carcinoma is the most common type of male cancer found in the Western world and its distant metastasis becomes a life threatening event in tumour bearing patients. However, the biology of prostate cancer and metastasis is poorly understood. We review the progress made in the last decade on the molecular and cellular biology of cell-cell adhesion molecules in the invasion and progression of prostate cancer, with emphasis being placed on E-cadherin and its associated molecules.
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PMID:E-cadherin and associated molecules in the invasion and progression of prostate cancer. 976 7

P-Cadherin is a member of the cadherin family of cell surface glycoproteins that mediate Ca2+-dependent cell-cell adhesion and is expressed in a differential fashion in normal epithelial tissues. The expression of P-cadherin in human prostate cancer development has not been investigated previously. By immunohistochemistry, we show that P-cadherin expression is restricted to the cell-cell border of basal epithelial cells in 30 normal prostate samples. This staining is down-regulated in prostatic intraepithelial neoplasia and is absent in all 25 of the well to poorly differentiated prostate cancer specimens analyzed. To examine potential P-cadherin-regulatory elements, we sequenced the 5'-flanking region of this gene. Similar to the mouse gene, the human P-cadherin promoter is TATA-less, contains an Sp-1 binding site and, analogous to the human E-cadherin sequence, demonstrates a GC-rich region characteristic of a CpG island. Cytosine methylation of this region occurs in P-cadherin-negative prostate cancer cell lines but not in cell lines expressing this gene. In vivo, a lack of expression in 12 clinical prostate cancer specimens is not associated with methylation of the P-cadherin promoter. These results demonstrate that the expression of the basal cell marker P-cadherin is lost in prostate cancer development and that in vivo mechanisms other than cytosine methylation regulate this consistent loss of expression.
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PMID:P-Cadherin is a basal cell-specific epithelial marker that is not expressed in prostate cancer. 981 5

Co-operation and communication between clinicians and scientists is required to meet the major challenges presented by the diagnosis and therapy of prostate cancer. Molecular oncology is playing an increasing role in this field and has already been instrumental in elucidating many of the basic mechanisms underlying the development and progression of prostate cancer. By understanding these mechanisms, factors which determine whether the tumour will metastasise, such as loss of function of E-cadherin, have been identified and may help the clinician determine which therapeutic strategy is most appropriate for an individual patient. Clinicians also need more sensitive tools to help them diagnose prostate cancer and monitor its progression. The marker DD3/PCA3 shows potential in this respect. Perhaps the most fruitful area for molecular research is in the definition of new therapeutic targets useful in hormone-refractory prostate cancer. In the early stages of development are those agents which target the activation of programmed cell death, inhibition of signal transduction, inactivation of telomerase activity, and differentiation therapy. In order to accelerate the implementation of diagnostic aids and more effective therapeutic strategies for prostate cancer, clinicians must have a greater insight into the molecular mechanisms operating in their patients' disease and scientists need to understand the clinical problems involved.
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PMID:Molecular diagnostics and therapy of prostate cancer: new avenues. 985 88

The E-cadherin-catenin complex plays an important role in establishing and maintaining intercellular connections and morphogenesis and reduced expression of its constituent molecules is associated with invasion and metastasis. In the present study, we examined E-cadherin and alpha-, beta- and gamma-catenin levels in tumour tissues obtained by radical prostatectomy in order to investigate the relationship with histopathological tumour invasion. Immunohistochemical findings for 45 prostate cancer specimens demonstrated aberrant expression of each molecule to be associated with dedifferentiation and, in addition, alteration of staining patterns for the three types of catenin was significantly correlated with capsular but not lymphatic or vascular invasion. The data thus suggest that three types of catenin may be useful predictive markers for biological aggressiveness of prostate cancer.
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PMID:E-cadherin and alpha-, beta- and gamma-catenin expression in prostate cancers: correlation with tumour invasion. 1020 8

The secosteroid hormones, all-trans- and 9-cis-retinoic acid and vitamin D3, have demonstrated significant capacity to control proliferation in vitro of many solid tumour cell lines. Cooperative synergistic effects by these two ligands have been reported, and it is, therefore, possible that greater therapeutic effects could be achieved if these compounds were administered together. The role of retinoid-dependent anti-activator protein 1 (anti-AP-1) effects in controlling cancer cell proliferation appears significant. We have utilized an anti-AP-1 retinoid [2-(4,4-dimethyl-3,4-dihydro-2H-1 benzopyran-6-yl)carbonyl-2-(4-carboxyphenyl)-1,3,-dithiane; SR11238], which does not transactivate through a retinoic acid response element (RARE), and a potent vitamin D3 analogue [1alpha,25(OH)2-16-ene-23-yne-26,27-F6-19-nor-D3, code name LH] together at low, physiologically safer doses against a panel of prostate cancer cell lines that represent progressively more transformed phenotypes. The LNCaP (least transformed) and PC-3 (intermediately transformed) cell lines were synergistically inhibited in their clonal growth by the combination of LH and SR11238, whereas SR11238 alone was essentially inactive. DU-145 cells (most transformed) were completely insensitive to these analogues. LNCaP cells, but neither PC-3 nor DU-145, underwent apoptosis in the presence of LH and SR11238. Transactivation of the human osteocalcin vitamin D response element (VDRE) by LH was not enhanced in the presence of SR11238, although the expression of E-cadherin in these cells was additively up-regulated in the presence of both compounds. These data suggest the anti-AP-1 retinoid and the vitamin D3 analogue may naturally act synergistically to control cell proliferation, a process that is interrupted during transformation, and that this combination may form the basis for treatment of some androgen-independent prostate cancer.
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PMID:Synergistic inhibition of prostate cancer cell lines by a 19-nor hexafluoride vitamin D3 analogue and anti-activator protein 1 retinoid. 1040

Normally functioning cell-cell adhesion plays an important role in the maintenance of tissue architecture and cell cohesion. E-cadherin is an important adhesion molecule of epithelial cells. In many types of cancer the expression of E-cadherin is reduced leading to increased risk of disease progression. alpha-Catenin is one of the intracellular elements of the E-cadherin-catenin complex. The abnormalities in the expression of alpha-catenin seem to associate with malignant cellular features and disease progression in prostate cancer. To further analyse the significance of alpha-catenin expression, we studied 215 cases of prostate cancer by immunohistochemistry and the results were related to other known prognostic factors and patient survival during a mean follow-up period of 13 years. alpha-Catenin expression was down-regulated in 19% of the cases and 3% of the tumours were totally alpha-catenin-negative. The abnormal alpha-catenin expression and cytoplasmic signal were significantly linked with high T-category, metastatic disease, high Gleason score, perineural growth, high mitotic rate, high S phase fraction and DNA aneuploidy (P < 0.05 for all). In the survival analysis, reduced alpha-catenin expression (P = 0.06) and cytoplasmic signal (P = 0.04) were related to unfavourable patient outcome. In the multivariate analysis, including TM-classification and Gleason score, alpha-catenin expression had independent prognostic value in T1-2 M0 tumors. In the M0 tumours, abnormal alpha-catenin signal was independently associated with recurrence-free survival as well. The results indicate that down-regulation of alpha-catenin is related to several malignant cellular features, and it seems to have prognostic significance in the early phases of cancer progression. We suggest that alpha-catenin expression can provide prognostic information in early prostate cancer.
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PMID:Alpha-catenin expression has prognostic value in local and locally advanced prostate cancer. 1040 56

Cadherins (CDH) are cell adhesion molecules and their dysfunctions have been implicated in the development of cancer metastases. Several cadherin genes are tandemly located on 16q, which is frequently deleted in prostate cancer. We therefore used 22 markers on 16q to localize important deleted regions in metastases of this tumor. We found 16q deletions in 24/32 (75%) tumors. All lymph node and brain metastases showed extensive deletions, while 52% of primary tumors displayed limited deletions. Commonly deleted regions (CDRs) on 16q23-24, CDR2 (D16S515-D16S516) and CDR4 (D16S520-D13S3028), were strongly associated with metastases and increased Gleason score. Reduced CDH1 (E-cadherin) expression was seen in 16/32 (50%) tumors, but the CDH1 gene is not within either of these two regions. Sequencing analysis for all 16 exons of the CDH1 gene did not reveal any mutations in 10 tumors, including three brain metastases with both 16q22.1 deletion and absent E-cadherin expression. Our results implicate other, yet unidentified genes on 16q23-24 to be the frequent targets of mutations and deletions in prostate cancer metastases.
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PMID:Distinct deleted regions on chromosome segment 16q23-24 associated with metastases in prostate cancer. 1045 96

Epigenetic mechanisms may be the main driving force for critical changes in gene expression that are responsible for progression of prostate cancers. The three most extensively characterized mechanisms for epigenetic gene-regulation are (i) changing patterns of DNA methylation, (ii) histone acetylations/deacetylations, and (iii) alterations in regulatory feedback loops for growth factors. Several studies have indicated that DNA hypermethylation is an important mechanism in prostate cancer for inactivation of key regulatory genes such as E-cadherin, pi-class glutathione S-transferase, the tumor suppressors CDKN2 and PTEN, and IGF-II. Similarly, histone acetylations and deacetylations are frequently associated respectively with transcriptional activation (e.g. IGFBP-2 and p21) and repression (e.g. Mad:Max dimers) of genes linked to prostate cancer progression. Recently, histone acetyltransferase and deacetylase activities have been shown to be intrinsic with transcriptional coregulator proteins that bind to steroid receptors (e.g. SRC-1 and PCAF). Changes in regulatory feedback loops for growth factors with prostate cancer progression tend toward shifts from paracrine to autocrine control where the receptor and ligand are produced by the same cell. While there are several examples of this progression pattern in prostate tumors such as with IGF, FGF, TGF-alpha and their respective receptors, the precise mechanism (i.e. epigenetic or mutational) is less certain. In the context of treatment options, the contribution of mutational versus epigenetic events to prostate cancer progression is an important consideration. Irreversible genetic changes are likely to be less amenable to therapeutic control than are epigenetic ones.
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PMID:Epigenetic mechanisms for progression of prostate cancer. 1045 84


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