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

Skin carcinogenesis can be divided into at least three major stages: initiation, promotion, and progression. In the mouse skin model, the first stage is thought to involve the interaction of a tumor initiator with the genetic material of stem cells, leading to an irreversible alteration in growth control or differentiation, probably by activation of the Ha-ras oncogene. The major effect of all skin-tumor promoters seems to be the specific expansion of the initiated stem cells. The correlation between the abilities of tumor promoters to induce sustained hyperplasia and their tumor-promoting activities is very good. We found that the appearance of alpha-glutamyl transpeptidase (GGT) and keratin 13 and the lack of expression of keratins 1 and 10 are good markers for skin tumor progression. These alterations occur when papillomas change from a diploid to an aneuploid state, mainly as a result of developing trisomies 6 and 7. To evaluate the role of GGT in skin-tumor progression, we transfected a functional GGT cDNA into two cell lines that normally produce papillomas when grafted into the skin of nude mice. When injected subcutaneously, all of the GGT-transfected clones formed malignant tumors, whereas only 24% of vector-transfected cells did. When GGT-transfected clones were placed into grafts, the grafts had an average mass almost three times that of grafts of vector-transfected cells. Our recent studies also suggest that the ribonucleoprotein telomerase and the gap-junctional proteins connexins (Cxs) are also important in skin-tumor progression. A progressive increase in telomerase activity was associated with the increased level of genomic instability during tumor progression. In addition, the level and expression of Cx26, Cx43, and Cx31.1 were significantly altered during skin tumor promotion and progression. The differences of various mouse stocks and strains in susceptibility to multistage skin carcinogenesis seem to be related more to alterations in tumor promotion than to tumor initiation; however, the critical events have not been determined. Results with an inbred strain of SENCAR mice, which are very sensitive to papilloma formation by the two-stage protocol, also suggest that susceptibility is related to promotion. Despite the high incidence of papillomas in these inbred SENCAR mice, the number of malignant tumors was extremely low, suggesting that sensitivity to promotion and progression are independent in these mice.
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PMID:The mouse skin carcinogenesis model. 962 10

There is vast evidence in support of the idea that accumulated genetic changes (mutations) are the underlying cause of neoplasia development. This multi-step process is aptly illustrated by colorectal carcinoma (CRC), usually developing in the course of decades, and presumably requiring at least seven genetic events to complete its development. In CRC the oncogenes most frequently undergoing mutation are c-k-ras and c-myc, and among tumor suppressant genes--APC, MCC, DCC, p53. An updated model of the molecular bases for adenoma occurrence and its evolution into carcinoma is presented. Inheritance of a single gene only which has undergone mutation augments substantially the predisposition to CRC. This is noted in a clearcut manner in the hereditary syndromes familial adenomatous polyposis (FAP) and hereditary non-polypous colorectal carcinoma (HNPCC). Recent studies along these lines suggest that the genetic defect in FAP increases the incidence of tumor initiation through functional impairment of the APC gene which is a gene regulator of the enhanced colorectal mucosa proliferation. Contrarily, the defect in HNPCC involves mainly the tumor progression through mutation of the DNA repair genes (MMRs), which are regulators of the genome stability. The study of hereditary syndromes give rise to a new concept for the occurrence and development of sporadic and inherited cancer in humans.
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PMID:[The molecular biology and genetics of colorectal carcinoma]. 973 86

Defects in apoptosis signaling pathways are common in cancer cells. Such defects may play an important role in tumor initiation because apoptosis normally eliminates cells with damaged DNA or dysregulated cell cycle, i.e., cells with increased malignant potential. Moreover, impaired apoptosis may enhance tumor progression and promote metastasis by enabling tumor cells to survive the transit in the bloodstream and to grow in ectopic tissue sites lacking the otherwise required survival factors. Finally, raised apoptosis threshold may have deleterious consequences by rendering cancer cells resistant to various forms of therapy. The intensive apoptosis research during the past decade has resulted in the identification of several proteins which may promote tumorigenesis by inhibiting apoptosis. Of special relevance in human cancer are those commonly expressed in primary tumors and functioning at the common part of the signaling pathway leading to apoptosis. Proteins fulfilling these criteria include antiapoptotic members of the Bcl-2 protein family, heat shock proteins, Hsp70 and Hsp27, as well as survivin, the novel cancer-associated member of the inhibitor of apoptosis protein family. Understanding the molecular mechanisms of action of these proteins may offer novel modes of rationally and selectively manipulating the sensitivity of cancer cells to therapy.
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PMID:Escaping cell death: survival proteins in cancer. 1009 11

We have used proviral tagging in tumor-prone transgenic mice to identify collaborating oncogenes and genes contributing to tumor progression. This has yielded a series of oncogenes that could be assigned to different complementation groups in transformation: the myc, Pim, Bmi1, and Frat1 complementation groups. Frat1 is involved in tumor progression and appears to function in the Wnt signaling pathway. Overexpression of Fratl confers a growth advantage to transplanted tumor cells in vivo and to cells grown in vitro at high density. Frat1 might exert its activity by impairing the kinase activity of Gsk3beta, which is involved in the degradation of beta-catenin. Pim genes appear to act in tumor initiation and show strong synergism with myc in lymphomagenesis. Overexpression of Pim1 can also overcome some of the proliferative defects caused by defective interleukin signaling supporting a role of Pim1 in cell proliferation. We have applied proviral tagging in compound mutant Emu-myc/Pim1-/-/Pim2-/- mice to identify genes that can complement for the loss of Pim1 and Pim2 and, therefore, are able to synergize with c-myc in lymphomagenesis. A number of new as well as known genes have been found by this "complementation tagging." The latter included c-kit, Tp12, and cyclin D2, suggesting that Pim kinases might act upstream of or parallel to these known proto-oncogenes.
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PMID:Identification and characterization of collaborating oncogenes in compound mutant mice. 1019 95

The interaction of the adenomatous polyposis coli (APC) tumor-suppressor protein and the intracellular cell-adhesion protein beta-catenin is crucial for the development of colorectal tumors. Since functional nuclear complexes of beta-catenin with transcription factors have been identified recently, the knowledge of level and distribution of beta-catenin in sporadic colorectal tumors will give important insights into the intracellular mechanism of sporadic colorectal tumor initiation and progression. In contrast to the familiar adenomatous polyposis syndrome and to the majority of sporadic colorectal tumors, Peutz-Jeghers (PJ) syndrome is not caused by mutations in the APC gene. Since PJ syndrome is an inherited disease with an increased risk for gastrointestinal adenocarcinoma, whether beta-catenin plays a similarly important role for the development of PJ polyps should be further investigated. For these reasons we analyzed the distribution of beta-catenin in a total of 60 sporadic colorectal tumors at different stages of progression and in 6 PJ polyps. In addition to the localization at the cell-to-cell border membranes, fluorescence immunohistochemistry revealed a nuclear accumulation of beta-catenin in single tumor cells of 10/14 small adenomas with mild dysplasia and in 14/16 adenomas with moderate dysplasia. Further tumor progression is accompanied by an expansion of cells with increased level of nuclear and cytoplasmic beta-catenin. These cells were observed in 5/16 adenomas with moderate dysplasia and in 15/15 adenomas with severe dysplasia. In all adenocarcinomas investigated, as well as in the corresponding lymph node metastases, a sub-population of tumor cells exhibited a remarkably increased level of beta-catenin within the entire cytoplasm and the nucleus. In contrast to the situation in sporadic colorectal tumors, nuclear and cytoplasmic beta-catenin was not increased in PJ polyps. These results point to an extensive redistribution of beta-catenin, which starts early in colorectal tumorigenesis. The nuclear accumulation in single cells of small adenomas can be considered as the first visible sign of the loss of APC function. Thus the immunohistochemical detection of beta-catenin distribution could serve as a criterion for estimating the malignant potential in the clinico-pathological evaluation of colon tumors during their early progression.
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PMID:Intracellular distribution of beta-catenin in colorectal adenomas, carcinomas and Peutz-Jeghers polyps. 1035 35

To determine the role of retinoblastoma (Rb) gene alteration in hepatocarcinogenesis, we examined Rb protein expression immuno-histochemically in a series of surgically resected specimens including non-cancerous liver tissues with cirrhosis or chronic hepatitis, large regenerative nodules, pre-cancerous adenomatous hyperplasias as well as primary and metastatic lesions of hepatocellular carcinoma (HCC). All of the non-cancerous liver tissues, large regenerative nodules and adenomatous hyperplasias showed normal Rb protein expression. Altered Rb protein expression was observed in 31 (lack of Rb protein in 16 and over-expression in 15) of the 81 primary HCCs (38%) and was significantly associated with tumor differentiation grade: altered Rb protein expression occurred in 1 of 23 (4%), 16 of 43 (37%) and 14 of 15 (93%) well-, moderately and poorly differentiated tumors (moderately vs. well-differentiated p < 0.01; poorly vs. moderately differentiated p < 0.001). Incidences of both Rb protein absence and over-expression were higher for moderately differentiated than for well-differentiated tumors and even higher for poorly differentiated tumors. Rb protein absence and over-expression were observed in 9 (39%) and 10 (44%) of the 23 metastatic lesions of HCC, respectively, and the incidence of altered Rb protein expression (absence or over-expression) was significantly higher than in primary lesions (83% vs. 38%, p < 0.001). Our observations suggest that elevated and absent Rb protein are closely associated with tumor progression and developing metastatic disease rather than tumor initiation in cases of HCC. Int. J. Cancer (Pred. Oncol.) 84:604-608, 1999.
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PMID:Over-expression and lack of retinoblastoma protein are associated with tumor progression and metastasis in hepatocellular carcinoma. 1056 6

The tumor suppressor SMAD4, also known as DPC4, deleted in pancreatic cancer, is a central mediator of TGF-beta signaling. It was previously shown that mice homozygous for a null mutation of Smad4 (Smad4-/-) died prior to gastrulation displaying impaired extraembryonic membrane formation and endoderm differentiation. Here we show that Smad4+/- mice began to develop polyposis in the fundus and antrum when they were over 6 - 12 months old, and in the duodenum and cecum in older animals at a lower frequency. With increasing age, polyps in the antrum show sequential changes from hyperplasia, to dysplasia, in-situ carcinoma, and finally invasion. These alterations are initiated by a dramatic expansion of the gastric epithelium where Smad4 is expressed. However, loss of the remaining Smad4 wild-type allele was detected only in later stages of tumor progression, suggesting that haploinsufficiency of Smad4 is sufficient for tumor initiation. Our data also showed that overexpression of TGF-beta1 and Cyclin D1 was associated with increased proliferation of gastric polyps and tumors. These studies demonstrate that Smad4 functions as a tumor suppressor in the gastrointestinal tract and also provide a valuable model for screening factors that promote or prevent gastric tumorigenesis.
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PMID:Haploid loss of the tumor suppressor Smad4/Dpc4 initiates gastric polyposis and cancer in mice. 1077 76

Cancer development and progression has been associated with numerous genetic events in tumor cells. Germline mutations of caretaker and gatekeeper genes are responsible for hereditary cancer syndromes. Exogenous factors in conjunction with functional germline variants of a variety of genes may contribute to tumor initiation in sporadic malignant disease. Furthermore, pathways to neoplasia require somatic events in the developing tumor. Acquired or inherited genetic instability permits stepwise tumor progression. The most fearsome aspect of tumor progression is dissemination of tumor cells to draining lymph nodes of the primary or to distant organs, which limits effectiveness of surgical therapy. Cellular heterogeneity of malignant neoplasms has important implications for chemotherapy and radiotherapy. An increasing understanding of the molecular biology of tumors is the prerequisite for improved prediction, prevention and therapy of malignant disease.
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PMID:[Biological principles for multimodal therapy approaches]. 1082 9

As the process of tumor progression proceeds from the normal cellular state to a preneoplastic condition and finally to the fully invasive form, the molecular characteristics of the cell change as well. These characteristics can be considered a molecular fingerprint of the cell at each stage of progression and, analogous to fingerprinting a criminal, can be used as markers of the progression process. Based on this premise, the Cancer Genome Anatomy Project was initiated with the broad goal of determining the comprehensive molecular characterization of normal, premalignant, and malignant tumor cells, thus making a reality the identification of all major cellular mechanisms leading to tumor initiation and progression ([Strausberg, R.L., Dahl, C.A., and Klausner, R.D. (1997). "New opportunities for uncovering the molecular basis of cancer." Nat. Genet., 16: 415-516.], www.ncbi.nlm.nih.gov/ncicgap/). The expectation of determining the genetic fingerprints of cancer progression will allow for 1) correlation of disease progression with therapeutic outcome; 2) improved evaluation of disease treatment; 3) stimulation of novel approaches to prevention, detection, and therapy; and 4) enhanced diagnostic tools for clinical applications. Whereas acquiring the comprehensive molecular analysis of cancer progression may take years, results from initial, short-term goals are currently being realized and are proving very fruitful.
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PMID:The Cancer Genome Anatomy Project: EST sequencing and the genetics of cancer progression. 1093 42

Studies on human cancer predisposition syndromes have contributed significantly to our understanding on tumor initiation and progression. Work performed on hereditary colon cancer has been particularly fruitful. Much of the molecular background of the various intestinal polyposis syndromes, such as familial adenomatous polyposis (FAP), juvenile polyposis, and Peutz-Jeghers syndrome, has been revealed, pinpointing several key cancer-associated genes. Studies on hereditary nonpolyposis colorectal cancer (HNPCC) have revealed a novel mechanism of tumorigenesis; genomic instability caused by defective DNA mismatch repair (MMR). Understanding the molecular background of these diseases helps us to understand tumor initiation in the affected individuals. Relatively little is known about the details of tumor progression in hereditary and sporadic neoplasia. Certain additional gene mutations can be associated with advancing stages of the disease, but the pace and tempo of the process have remained obscure. A high mutation rate in MMR-deficient tumors has provided a new approach in the analysis of human tumor dynamics. Microsatellite (MS) sequences are frequently mutated in MMR deficient tumors. The high mutation rate allows the use of microsatellite mutations as a tool for analyzing the past patterns of tumor progression. This approach is similar to the use of MS mutations in studying human evolution and migrations. Such tumor studies have revealed progression pathways that differ from the classic adenoma-cancer sequence. The reasons why and how molecular clocks may reveal something new about a well-studied problem are discussed.
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PMID:Genetic predisposition and somatic diversification in tumor development and progression. 1103 41


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