UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human papillomavirus type 18 (HPV18) is frequently detected in cervical cancer cells. The viral proteins E6 and E7 are expressed consistently and have oncogenic activities. The E7 protein binds to a tumor suppressor, the retinoblastoma gene product (pRB), however, leading to the stabilization of tumor suppressor, p53 protein. On the other hand, another viral product, E6, forms complexes with p53 and abrogates its function, resulting in tumor progression. These facts imply that the E6 oncogene is one of the ideal targets for directed gene therapy in HPV-positive cervical cancer. In this study, we tried photodynamic antisense regulation of the antiapoptotic E6 expression using a photocross-linking reagent, 4,5',8-trimethylpsoralen, conjugated oligo(nucleoside phosphorothioate) (Ps-S-Oligo). This photodynamic antisense strategy effectively elicited the apoptotic death of HPV18-positive cervical cancer cells through the selective repression of E6 mRNA and consequent stabilization of p53 protein. E7-mediated signals potentially activated the p53 function and mobilized the p53 pathway to deliver pro-apoptotic signals to the cancer cells, leading to the suppression of in vivo tumorigenesis. An extremely low concentration of cisplatin in addition to Ps-S-Oligos further up-regulated p53 activity, provoking massive apoptotic induction. These results suggest that the photodynamic antisense strategy has the great therapeutic potential in HPV-positive cervical cancers.
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PMID:Specific apoptosis induction in human papillomavirus-positive cervical carcinoma cells by photodynamic antisense regulation. 1746 64

Tumor invasion is the critical step that could lead to metastasis in retinoblastoma (RB), a common childhood cancer. Matrix metalloproteinases (MMPs) degrade extracellular matrix, which is a crucial step involved in various stages of tumor progression, including tumor angiogenesis, tumor growth, and also local invasion and subsequent distant metastasis. We investigated the role of extracellular MMP inducer (EMMPRIN), MMP-2, MMP-9 and tissue inhibitor of metalloproteinases (TIMPs): TIMP-1, TIMP-2 in RB and correlated clinicopathologically. Among 60 tumors, EMMPRIN was expressed in 40 (64%), MMP-2 in 41 (66%), MMP-9 in 38 (61%), TIMP-1 in 35 (56%), and TIMP-2 in 33 (53%) tumors. EMMPRIN was positive (3+) in 13 (39%) out of 33 tumors with invasion and was positive (3+) in only 1 (3%) out of 29 tumors without invasion. MMP-2 (P<0.0001) and MMP-9 (P<0.0001) were significantly positive (3+) in 7 (21%) and 12 (36%) out of 33 tumors with invasion, whereas positive (3+) in 3 (10%) and faint (1+) in 10 (34%) tumors, respectively, out of 29 tumors without invasion. TIMP-1 (P<0.0001) and TIMP-2 (P=0.04) were significantly positive (3+) in 7 (21%) and 10 (30%), respectively out of 33 tumors with invasion, whereas positive (3+) in only 1 (3%) tumor each out of 29 tumors without invasion. Immunoblotting of tumors confirmed the presence of EMMPRIN, MMPs, and TIMPs. In conclusion, both MMPs and TIMPs may be involved RB invasion and EMMPRIN could play a role in up-regulation of MMP-2 in invasive RB.
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PMID:Expression of matrix metalloproteinases and their inhibitors in retinoblastoma. 1755 2

An understanding of the mechanisms that uncover the dynamic changes in the distribution of the chromatin modifying enzymes and regulatory proteins on their target loci could provide further insight into the phenomenon of malignant transformation. Based on the current available data, it seems more and more clear that an abnormal expression of Ezh2, a member of the Polycomb group (PcG) protein, may be involved in the tumorigenesis process, in addition, different studies identify Ezh2 as a potential marker that distinguish aggressive prostate and breast cancer from indolent one. Recent investigation show that ectopic expression of Ezh2 provides proliferative advantage to primary cells through interaction with the pathways of key elements that control cell growth arrest and differentiation, like members of the retinoblastoma (Rb) family. Here, we outline how these pathways converge and we review the recent advances on the molecular mechanisms that promote cell cycle progression through deregulation of Ezh2 protein level, providing novel links between cancer progression and chromatin remodeling machineries.
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PMID:Importance of Ezh2 polycomb protein in tumorigenesis process interfering with the pathway of growth suppressive key elements. 1778 43

Cervical cancer is a potentially preventable disease; however, it remains the second most common malignancy in women worldwide. The human papillomavirus (HPV) is the single most important etiological agent in cervical cancer. HPV contributes to neoplastic progression through the action of two viral oncoproteins E6 and E7, which interfere with critical cell cycle pathways, tumor protein p53, and retinoblastoma protein. However, evidence suggests that HPV infection alone is insufficient to induce malignant changes, and other host genetic variations are important in the development of cervical cancer. Advances in molecular biology and high throughput technologies have heralded a new era in biomarker discovery and identification of molecular targets related to carcinogenesis. These advancements have improved our understanding of carcinogenesis and will facilitate screening, early detection, management, and personalized targeted therapy. A number of these developments and molecular targets associated with cervical cancer will be addressed in this review.
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PMID:Gene discovery in cervical cancer : towards diagnostic and therapeutic biomarkers. 1796 16

Inactivation of the retinoblastoma (RB) tumor suppressor pathway, via elevated cyclin-dependent kinase (CDK) activity, is observed in majority of human cancers. Since CDK deregulation is evident in most cancer cells, pharmacological CDK inhibition has become an attractive therapeutic strategy in oncology. We recently showed that an oncogenic CDK4(R24C) mutation alters the subcellular localization of the normally nuclear RB phosphoprotein. Here, using 71 human cancer cell lines and over 300 primary human cancer tissues, we investigated whether changes in RB subcellular localization occur during human cancer progression. We uncover that diverse human cancers and their derived cell lines, particularly those with poor tumor differentiation, display significant cytoplasmic mislocalization of ordinarily nuclear RB. The nucleocytoplasmically distributed RB was derived via CDK-dependent and Exportin1-mediated nuclear export. Indeed, cytoplasmically mislocalized RB could be efficiently confined to the nucleus by pharmacologically reducing CDK activity or by inhibiting the Exportin1-mediated nuclear export pathway. Our observations uncover a post-translational CDK-dependent mechanism of RB inactivation and suggest that cytoplasmically localized RB may harbor a tumor promoting function. We propose that RB inactivation, via aberrant nucleocytoplasmic transport, may disrupt normal cell differentiation programs and accelerate the cancer process. These results are evidence that tumor cells modulate the protein transport machinery thereby making the protein transport process a viable therapeutic target.
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PMID:Aberrant nucleocytoplasmic localization of the retinoblastoma tumor suppressor protein in human cancer correlates with moderate/poor tumor differentiation. 1807 17

Infection with high risk papilloma viruses (HPV types 16, 18, and relative ones) initiates the development and progression of uterine neck cancer. The viral genome is found in pre-tumorous lesions (stage I to III intraepithelial neoplasias--CIN) and carcinomas, persisting in cells in episomal or integrated state. In all tumors, there is the expression of two viral transforming genes, E6 and E7, the main function of which is the inactivation of genes that suppress tumoral growth, p53 and retinoblastoma gene. In CIN and carcinomas, losses of heterozygosity are found in various chromosomes, mainly in the areas of suppressor genes; some of them can be specific for certain stages of the malignant process. Among epigenetic alterations, the main significance for the progress of the disease belongs to the methylation of the promoter areas of the genes involved in the process of cell division, which may be specific for each separate tumor and appears in approximately 30 to 40% of tumors. Another important epigenetic alteration is the increase in the expression of p16ink4a gene, which is the inhibitor of cyclin-dependent kinases; this appears at CIN I stage and may serve as an additional early diagnostic marker. Telomerase activity has been identified in all uterine neck tumors, but each tumor has its own spectrum of spliced RNA coding this enzyme. Expression microchip technique has shown that each tumor is individual according to the spectrum of "working" genes, and this spectrum varies in the process of tumor progression.
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PMID:[Genetic and epigenetic factors of cervical tumor progression]. 1808 May 24

We used mathematical models to analyze the age-incidence curve of breast carcinoma for individuals carrying a germline mutation in the BRCA1 or BRCA2 gene locus. Although many genomic abnormalities have been identified in breast tumors, we found that a two-stage model fit the data well. A one-hit model was not, however, consistent with the data. The results supported the hypothesis that the first hit represents loss of the wild type BRCA1 or BRCA2 allele as this occurs at a rate very similar to that for loss of the wild-type RB allele in retinoblastoma. Loss of the wild-type BRCA1 or BRCA2 allele appears to destabilize the genome as the second event occurs at a much higher rate. The second event is "rate limiting" in the sense that its occurrence is constrained by the limited number of intermediate cells with doubly mutated BRCA1 or BRCA2 alleles. The second event may not be unique, however. Loss of the wild-type BRCA allele appears to result in an increased rate for subsequent genomic events. A second event increasing proliferation of the partially malignant intermediate clone may lead inexorably to production and selection of cells with additional mutations in genes that facilitate tumor progression.
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PMID:On the dynamics of breast tumor development in women carrying germline BRCA1 and BRCA2 mutations. 1809 85

The aryl hydrocarbon receptor (AHR) is a ligand-activated transcription factor that mediates the biologic and toxic effects of its xenobiotic ligands. In recent years it has become evident that in the absence of ligand the AHR promotes cell cycle progression and that its activation by high-affinity ligands results in interactions with the retinoblastoma protein (RB) that lead to perturbation of the cell cycle, G0/G1 arrest, diminished capacity for DNA replication and inhibition of cell proliferation. Hence, the AHR has diametrically opposed pro-proliferative and anti-proliferative functions that have yet to be reconciled at the molecular level. Work from our own and from other laboratories suggests that the AHR may function as a tumor suppressor gene that becomes silenced in the process of tumor formation. To develop preliminary support for a more thorough examination of this hypothesis we characterized the expression levels of various tumor suppressor genes, transforming growth factor-beta (Tgfb) genes and the Ahr gene in liver tumor samples from mice with a liver-specific RB ablation and their wild-type littermates. In tumors arising in RB-positive livers, Cdkn2d and Tgfb1 were repressed and Cdkn2c, Tgfb2, Tgfb3 and Pai1 were induced, whereas in RB-negative tumors, only Cdkn2c and Tgfb3 were induced. Ahr was significantly repressed in tumors from both sets of mice, supporting the concept that Ahr silencing may be associated with cancer progression.
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PMID:Repression of Ah receptor and induction of transforming growth factor-beta genes in DEN-induced mouse liver tumors. 1828 51

The androgen receptor (AR) is a critical effector of prostate cancer development and progression. The dependence of this tumor type on AR activity is exploited in treatment of disseminated prostate cancers, wherein ablation of AR function (achieved either through ligand depletion and/or the use of AR antagonists) is the first line of therapeutic intervention. These strategies are initially effective, and induce a mixed response of cell cycle arrest or apoptosis in prostate cancer cells. However, recurrent, incurable tumors ultimately arise as a result of inappropriately restored AR function. Based on these observations, it is imperative to define the mechanisms by which AR controls cancer cell proliferation. Mechanistic investigation has revealed that AR acts as a master regulator of G1-S phase progression, able to induce signals that promote G1 cyclin-dependent kinase (CDK) activity, induce phosphorylation/inactivation of the retinoblastoma tumor suppressor (RB), and thereby govern androgen-dependent proliferation. These functions appear to be independent of the recently identified TMPRSS2-ETS fusions. Once engaged, several components of the cell cycle machinery actively modulate AR activity throughout the cell cycle, thus indicating that crosstalk between the AR and cell cycle pathways likely modulate the mitogenic response to androgen. As will be discussed, discrete aberrations in this process can alter the proliferative response to androgen, and potentially subvert hormonal control of tumor progression.
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PMID:AR, the cell cycle, and prostate cancer. 1830 81

Telomere attrition, DNA damage and constitutive mitogenic signaling can all trigger cellular senescence in normal cells and serve as a defense against tumor progression. Cancer cells may circumvent this cellular defense by acquiring genetic mutations in checkpoint proteins responsible for regulating permanent cell cycle arrest. A small family of tumor suppressor genes encoding the retinoblastoma susceptibility protein family (Rb, p107, p130) exerts a partially redundant control of entry into S phase of DNA replication and cellular proliferation. Here we report that activation of the p53-dependent DNA damage response has been found to accelerate senescence in human prostate cancer cells lacking a functional Rb protein. This novel form of irradiation-induced premature cellular senescence reinforces the notion that other Rb family members may compensate for loss of Rb protein in the DNA damage response pathway. Consistent with this hypothesis, depletion of p107 potently inhibits the irradiation-induced senescence observed in DU145 cells. In contrast, p130 depletion triggers a robust and unexpected form of premature senescence in unirradiated cells. The dominant effect of depleting both p107 and p130, in the absence of Rb, was a complete blockade of irradiation-induced cellular senescence. Onset of the p107-dependent senescence was temporally associated with p53-mediated stabilization of the cyclin-dependent kinase inhibitor p27 and decreases in c-myc and cks1 expression. These results indicate that p107 is required for initiation of accelerated cellular senescence in the absence of Rb and introduces the concept that p130 may be required to prevent the onset of terminal growth arrest in unstimulated prostate cancer cells lacking a functional Rb allele.
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PMID:Distinct roles for p107 and p130 in Rb-independent cellular senescence. 1841 57

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