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)

This review focuses on genes that have a proven or presumed role in the genesis of astrocytic tumors. A common theme in glioblastoma is the amplification of genes that code for growth factor receptors of the protein-tyrosine kinase family (epidermal growth factor receptor, platelet-derived growth factor receptor-alpha, met). The majority of glioblastomas also have alterations in genes that encode factors that are involved in cyclin-dependent kinase activity, which is a critical step in G1-S transition in the cell cycle. These alterations include deletions of negative regulatory elements (TP53, CDKN2, MTS2) and amplification of positive factors (MDM2, CDK4). In addition, there are loci on chromosomes 10 and 19q that seem to be involved in tumor progression.
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PMID:Molecular genetics of human glioma. 765 23

Homozygous deletions of the tumor suppressor gene p16/MTS1 were reported in a wide variety of tumors and tumor cell lines. Its product inhibits the phosphorylation of the retinoblastoma protein (pRb) by CDK4 and CDK6. Because phosphorylation of pRb is a major regulatory event in the activation of the transcription factor E2F, a role for p16 in the regulation of E2F-dependent transcription was presumed. We investigated the effect of the loss of p16 on E2F-mediated transcription in a tumor progression model consisting of three cell lines originating from a common precursor cell--one p16-positive cell line established from the primary biopsy and two lines derived from more advanced stages of the tumor representing the same cell clone after loss of p16. We observed up- and deregulation of E2F-dependent transcription during the cell cycle of the p16-negative cell clones, which returned to normal after transient expression of p16. This p16-dependent regulation affects a set of enzymes necessary for the activation of all four DNA precursors; it is paralleled by the interconversion of transcriptionally active free E2F and transcriptionally inactive higher molecular complexes of E2F and is dependent on the existence of endogenous pRb. Furthermore, we show that p16-negative cell clones exhibit a growth advantage compared to their p16-positive counterparts. One might speculate that one feature of tumor progression could be deregulation of E2F-dependent transcription caused by loss of p16.
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PMID:Loss of the p16/MTS1 tumor suppressor gene causes E2F-mediated deregulation of essential enzymes of the DNA precursor metabolism. 856 96

The p16 (CDKN2,MTS1) gene is located at 9p21 and its product, p16, inhibits the cyclin D/CDK4 complex. Loss of heterozygosity on chromosome 9p is very common in human bladder carcinomas and has been found in all stages of lesions, suggesting that it occurs early in bladder tumor progression. Several studies have revealed frequent homozygous deletion of the p16 gene in cell lines, and that such deletions are also common in some types of cancers. In addition, point mutations in the p16 gene have been identified in several types of neoplasia. In the present examination of urinary bladder tumors, no p16 gene mutations were detected, but nine cases out of 23 (39%) showed decreased mRNA expression, revealed by the reverse transcriptase polymerase chain reaction. There were no histological differences apparent between those cases with normal and those with decreased p16 expression. These results indicate that while p16 gene mutations may be rare, changes in the level of the p16 transcripts could play a role in human bladder carcinoma development.
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PMID:Decreased expression of the p16/MTS1 gene without mutation is frequent in human urinary bladder carcinomas. 907 Mar 36

The pl6INK4a/MTS1 (p16) gene encodes a specific inhibitor of cyclin-dependent kinase (CDK)4 and CDK6. The p16 gene is frequently mutated or deleted in many types of cancer cell lines as well as in certain types of primary tumors. p16 knockout mice are viable but predisposed to sarcoma and B-cell lymphoma. To investigate the role of p16 in human soft-tissue sarcoma tumor progression, we examined the p16 gene by Southern blot analysis and PCR sequencing in 30 pairs of primary soft-tissue sarcomas and autologous normal tissue. Only one tumor sample showed possible rearrangement of the p16 gene. In contrast, Western blot analysis of the p16 protein in 20 pairs of samples showed decreased p16 expression in only 20% of the tumors but elevated p16 expression in 40% of the tumors when compared with the autologous normal controls. Overexpression of p16 was not concomitant with loss of the RB protein as is found in several other types of cancers, because more than one-half of the tumors with increased p16 expression also had high levels of RB protein. On the other hand, the p16 target protein CDK4 was overexpressed in at least 60% of the tumors. In the majority of cases, CDK4 overexpression accompanied elevated p16 and/or RB levels. Our results suggest that: (a) alteration of the p16 gene is infrequent in primary soft-tissue sarcoma; (b) Cdk4 may act as an oncogene in soft-tissue sarcoma; and (c) elevated p16 and RB levels might be the result of compensatory up-regulation of these proteins to counteract CDK4 overexpression in these tumors. Our results also suggest that it is more informative to examine aberrations in the "p16-CDK4/cyclin D-RB" pathway than to selectively examine individual components in this pathway when investigating genetic changes involved in human malignancy.
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PMID:Infrequent mutation of the p16/MTS1 gene and overexpression of cyclin-dependent kinase 4 in human primary soft-tissue sarcoma. 956 3

Chromosomal translocations leading to deregulation of specific oncogenes characterize approximately 50% of cases of diffuse large B-cell lymphomas (DLBL). To characterize additional genetic features that may be of value in delineating the clinical characteristics of DLBL, we studied a panel of 96 cases at diagnosis consecutively ascertained at the Memorial Sloan-Kettering Cancer Center (MSKCC) for incidence of gene amplification, a genetic abnormality previously shown to be associated with tumor progression and clinical outcome. A subset of 20 cases was subjected to comparative genomic hybridization (CGH) analysis, which identified nine sites of chromosomal amplification (1q21-23, 2p12-16, 8q24, 9q34, 12q12-14, 13q32, 16p12, 18q21-22, and 22q12). Candidate amplified genes mapped to these sites were selected for further analysis based on their known roles in lymphoid cell and lymphoma development, and/or history of amplification in tumors. Probes for six genes, which fulfilled these criteria, REL (2p12-16), MYC (8q24), BCL2 (18q21), GLI, CDK4, and MDM2 (12q13-14), were used in a quantitative Southern blotting analysis of the 96 DLBL DNAs. Each of these genes was amplified (four or more copies) with incidence ranging from 11% to 23%. This analysis is consistent with our previous finding that REL amplification is associated with extranodal presentation. In addition, BCL2 rearrangement and/or REL, MYC, BCL2, GLI, CDK4, and MDM2 amplification was associated with advanced stage disease. These data show, for the first time, that amplification of chromosomal regions and genes is a frequent phenomenon in DLBL and demonstrates their potential significance in lymphomagenesis.
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PMID:Chromosomal and gene amplification in diffuse large B-cell lymphoma. 963 22

Amplification of genes in the 12q13-15 region occurs frequently in several malignancies including osteosarcoma. The products of these amplified genes are thought to provide cancer cells with a selective growth advantage; however, the specific gene(s) driving this amplicon is unknown. We have previously shown that the SAS gene is amplified in most parosteal osteosarcomas. In this study we analysed additional putative growth regulatory genes in this chromosomal region in 24 primary osteosarcoma specimens. CDK4 and SAS were coamplified in 6/6 parosteal tumors, and MDM2 was also amplified in 4/5 parosteal cases. In comparison, amplification occurred in only 2/16 classical intramedullary osteosarcomas and involved the SAS gene. Each amplified gene had a correspondingly elevated mRNA level. Four high grade intramedullary tumors had elevated mRNA expression of SAS, but did not exhibit gene amplification. Gene amplification/overexpression was not associated with metastatic disease and did not change markedly with tumor progression, as evidenced by analysis of sequential tumor specimens from eight patients. Three other genes in the 12q13-15 region (CDK2, WNT1 and WNT10b) were not amplified in any of the tumors. The different patterns of gene amplification and overexpression of CDK4, SAS and MDM2 in parosteal and intramedullary osteosarcomas may help explain the disparity in the biological behaviour of these two types of osteosarcoma.
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PMID:Co-amplification and overexpression of CDK4, SAS and MDM2 occurs frequently in human parosteal osteosarcomas. 998 29

In this review, we summarize the significant progress that has been made in the identification of melanoma-associated antigens (MAA) recognized by cytotoxic T-lymphocytes (CTL). These antigens belong to three main groups: tumor-associated testis-specific antigens (e.g. , MAGE, BAGE, and GAGE); melanocyte differentiation antigens (e.g., tyrosinase, Melan-A/MART-1); and mutated or aberrantly expressed molecules (e.g, CDK4, MUM-1, beta-catenin). Although strong CTL activity may be induced ex vivo against most of these antigens, often in the presence of excess cytokines and antigen, a clear understanding of the functional status of CTL in vivo and their impact on tumor growth, is still lacking. Several mechanisms are described that potentially contribute to tumor cell evasion of the immune response, suggesting that any antitumor efficacy achieved by immune effectors may be offset by factors that result ultimately in tumor progression. Nevertheless, most of these MAA are currently being investigated as immunizing agents in clinical studies, the conflicting results of which are reviewed. Indeed, the therapeutic potential of MAA has still to be fully exploited and new strategies have to be found in order to achieve an effective and long-lasting in vivo immune control of melanoma growth and progression.
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PMID:T-cell recognition of melanoma-associated antigens. 1065 98

G1 cyclins and cyclin-dependent kinase (CDK) complexes play important roles in G1 cell cycle transition, and their overexpression is implicated for neoplasia. The p27 protein (p27) negatively regulates G1 progression by binding to G1 cyclins/CDK complexes and inhibits their activity, resulting in inhibition of entry to the cell cycle. We investigated overexpression of cyclin D1 (CCND1), cyclin D2 (CCND2), cyclin E (CCNE), CDK2, and CDK4, in addition to p27, in 260 gastric cancer cases on the basis of Western blots, reverse transcriptase-polymerase chain reaction Southern blots, and immunohistochemistry to clarify the roles of these proteins in tumor progression and prognosis. Examination of 20 cases of fresh cancer and matched normal tissues demonstrated a clear tendency for increased mRNA synthesis to be more frequent than expected from protein levels, and a direct correlation between p27 protein and mRNA was not found. Immunohistochemistry demonstrated 21. 5%, 34.2%, 30.4%, 44.2%, and 48.0% positivity for CCND1, CCND2, CCNE, CDK2, and CDK4, respectively, in the 260 gastric cancer cases. Overexpression of CCND2 and CDK4 significantly correlated with tumor progression. Moreover, CCND2 cytoplasmic staining (26.2%) appeared to be strictly linked with progression, whereas nuclear staining (7. 8%) demonstrated an inverse correlation. Survival curves showed CCND2 (especially cytoplasmic staining) and CDK4 positivity to be associated with a poor prognosis and CCNE positivity with a better prognosis. Tumors with high p27 labeling indices (LIs) were well differentiated, with low levels of invasion and lymph node metastasis. p27-negative cases (37.3%) demonstrated a poor prognosis. Multivariate analysis revealed positivity for CCND2 and negativity for p27 to be independent prognostic factors. There were no direct links among CCND2, CCNE, CDK4, and p27. The results indicate that CCND2 cytoplasmic localization might reflect an important physiological role in tumor progression, whereas CCNE overexpression correlates with differentiation and a good prognosis, possibly because of accumulation of inactive forms of CCNE-CDK2 complexes. Loss of p27 caused by degradation activity may affect tumor cell growth in the presence of an altered extracellular matrix, facilitating metastasis. Cell-cycle-regulatory proteins appear to work independently.
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PMID:Cyclin D2 overexpression and lack of p27 correlate positively and cyclin E inversely with a poor prognosis in gastric cancer cases. 1066 88

Prostate cells are dependent on androgen for proliferation, but during tumor progression prostate cancer cells achieve independence from the androgen requirement. We report that androgen withdrawal fails to inhibit cell cycle progression or influence the expression of cyclin-dependent kinase (CDK)/cyclins in androgen-independent prostate cancer cells, indicating that these cells signal for cell cycle progression in the absence of androgen. However, phosphorylation of the retinoblastoma tumor suppressor protein (RB) is still required for G1-S progression in androgen-independent cells, since the expression of constitutively active RB (PSM-RB) or p16ink4a caused cell cycle arrest and mimicked the effects of androgen withdrawal on downstream targets in androgen-dependent LNCaP cells. Since Ras is known to mediate mitogenic signaling to RB, we hypothesized that active V12Ras would induce androgen-independent cell cycle progression in LNCaP cells. Although V12Ras was able to stimulate ERK phosphorylation and induce cyclin D1 expression in the absence of androgen, it was not sufficient to promote androgen-independent cell cycle progression. Similarly, ectopic expression of CDK4/cyclin D1, which stimulated RB phosphorylation in the presence of androgen, was incapable of inactivating RB or driving cell cycle progression in the absence of androgen. We show that androgen regulates both CDK4/cyclin D1 and CDK2 complexes to inactivate RB and initiate cell cycle progression. Together, these data show that androgen independence is achieved via deregulation of the androgen to RB signal, and that this signal can only be partially initiated by the Ras pathway in androgen-dependent cells.
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PMID:Differential requirements for ras and the retinoblastoma tumor suppressor protein in the androgen dependence of prostatic adenocarcinoma cells. 1093 90

Esophageal squamous cell carcinoma (ESCC) has high malignant potential with a poor outcome. Lymph node metastasis is the most useful indicator for predicting the outcome of ESCC. The p16/MTS1/CDKN2 gene and the cyclin D1/PRAD-1 gene cooperatively regulate CDK4-mediated phosphorylation of RB protein in the cell cycle. We immunohistochemically detected p16, cyclin D1, and RB expressions in both primary lesions and metastatic lymph nodes in ESCC. Among the 50 ESCC primary lesions, 24 (48%) were positive for p16, while 26 (52%) were negative for p16. Sixteen (32%) were p16-positive, 34 (68%) were p16-negative among the 50 ESCC metastatic lymph nodes. Eight cases (16%) were p16-positive in primary lesion and p16-negative in lymph node, however, no cases that was p16-negative in the primary tumor exhibited p16-positivity in metastatic lymph nodes (p < 0.0001). Seventeen (34%) of the 50 ESCC primary lesions were cyclin D1-positive, while 33 (66%) were cyclin D1-negative. Twenty-four (48%) were cyclin D1-positive, 26 (52%) were cyclin D1-negative among the 50 metastatic lymph nodes. Five cases (10%) were cyclin D1-positive in primary lesion and cyclin D1-negative in lymph node, and 12 cases (24%) were cyclin D1-negative in primary lesion and cyclin D1-positive in lymph nodes. Nine cases (18%) were RB-negative in 50 primary lesions, and the rate of loss of RB expression in metastatic lymph nodes was not markedly higher than in primary lesions. Thirty-nine (78%) of 50 primary lesions and 46 (92%) of 50 metastatic lymph nodes had altered expression of at least one of the three G1 control genes. Tumor cell with disruption of these cell cycle regulators can get a growth advantage and metastatic potential during tumor progression, especially p16/CDKN2 alterations may be associated with lymph node metastasis in ESCC. These results also suggest that tumor cells in metastatic lymph nodes may have more aggressive proliferation and higher malignant potential than tumor cells in primary lesions.
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PMID:Further evidence that altered p16/CDKN2 gene expression is associated with lymph node metastasis in squamous cell carcinoma of the esophagus. 1129 92

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