Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Breast cancer is the most common cancer among American women. Because metastatic breast cancer is an incurable disease, efforts to decrease breast cancer mortality have focused on early detection and improved treatment. Identification and analysis of a specific genetic susceptibility could permit detection of susceptible women and greatly increase the understanding of the initial step that eventually leads to cancer. Because susceptibility loci have been recognized as sites that often are altered during tumor progression, the identification and cloning of such loci could be important in developing cancer therapies. In this article, the progress being made in segregation analysis, linkage analysis, and cloning of breast cancer susceptibility loci is reviewed. The evidence for genetic inheritance is most consistent with dominant inheritance for at least three major susceptibility loci. Proliferative breast disease has been hypothesized to be an inherited lesion in breast cancer kindreds with both premenopausal and postmenopausal probands. Currently, there are many genetic markers for mapping the human genome. Technologic advances have progressed from restriction fragment length polymorphisms to highly polymorphic markers. Using this technology, breast cancer susceptibility in some kindreds with an early onset has been shown to be linked to chromosome 17q. Gene isolation eventually will follow with an increased understanding of the percentage of breast cancer cases that are a result of this genetic locus. Li-Fraumeni syndrome, which often is expressed as breast cancer, is due to mutations in the p53 gene. Characterization of the syndrome and its relationship to the altered gene should proceed rapidly. There is also a group of families exhibiting a genetic susceptibility that is not due to either of these loci. Together, these findings indicate that there are at least three separate major loci segregating for breast cancer susceptibility. With the current initiative to map and sequence the entire human genome and the advances that recently have been reported, a detailed molecular understanding of breast cancer predisposition can be envisaged.
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PMID:Genetic predisposition to breast cancer. 151 30

Loss of cell cycle control and acquisition of chromosomal rearrangements such as gene amplification often occur during tumor progression, suggesting that they may be correlated. We show here that the wild-type p53 allele is lost when fibroblasts from patients with the Li-Fraumeni syndrome (LFS) are passaged in vitro. Normal and LFS cells containing wild-type p53 arrested in G1 when challenged with the uridine biosynthesis inhibitor PALA and did not undergo PALA-selected gene amplification. The converse occurred in cells lacking wild-type p53 expression. Expression of wild-type p53 in transformants of immortal and tumor cells containing mutant p53 alleles restored G1 control and reduced the frequency of gene amplification to undetectable levels. These studies reveal that p53 contributes to a metabolically regulated G1 check-point, and they provide a model for understanding how abnormal cell cycle progression leads to the genetic rearrangements involved in tumor progression.
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PMID:Wild-type p53 restores cell cycle control and inhibits gene amplification in cells with mutant p53 alleles. 152 30

Immunohistochemical staining for the p53 protein was performed in 107 snap frozen primary endometrial adenocarcinomas and 15 benign uterine tissues using monoclonal antibody PAb1801. No staining was seen in benign samples, whereas intense nuclear staining of cancer cells consistent with overexpression of the p53 protein was observed in 22 of 107 cancers (21%). p53 overexpression was more frequent in advanced (Stage III/IV) cancers (41%) than in early (Stage I/II) cancers (9%) (P less than 0.001), and also was associated with nonendometrioid histology (P = 0.008), positive peritoneal cytology (P = 0.01), extrauterine metastases (P = 0.003), and negative progesterone receptor status (P = 0.04). To confirm the relationship between p53 overexpression and mutation, p53 mRNA from 8 cancers was reverse transcribed and amplified using the polymerase chain reaction. DNA sequencing revealed point mutations in each of the 5 cancers that overexpressed p53, whereas the wild-type sequence was found in 3 cancers that did not overexpress the protein. Each of the 5 mutations resulted in an amino acid substitution in a highly conserved region of the p53 gene where mutations have been found in other cancers. Further studies are warranted to determine whether the association between p53 overexpression and advanced stage disease is due to accumulation of genetic lesions during tumor progression or whether p53 alterations confer a more virulent phenotype.
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PMID:Overexpression and mutation of p53 in endometrial carcinoma. 154 Sep 70

Barrett's esophagus is a condition in which the normal stratified squamous epithelium is replaced by metaplastic columnar epithelium that predisposes to the development of esophageal adenocarcinoma. Neoplastic progression in Barrett's esophagus occurs by a multistep process associated with genomic instability and the development of aneuploid cell populations. p53 protein overexpression and allelic deletions on chromosome 17p have been shown to be present in some Barrett's adenocarcinomas, but the stage in neoplastic progression at which p53 protein overexpression develops has not been investigated. To determine the stages in neoplastic progression at which p53 protein overexpression could be detected, biopsy specimens from patients with Barrett's esophagus at all stages of histological progression from Barrett's metaplasia negative for dysplasia to esophageal adenocarcinoma were investigated using a multiparameter flow-cytometric assay. p53 protein overexpression was found in 1 of 21 patients (5%) with Barrett's metaplasia negative for dysplasia, 2 of 13 patients (15%) with Barrett's metaplasia with abnormalities in the indefinite/low-grade dysplasia range, 5 of 11 patients (45%) with high-grade dysplasia, and 8 of 15 patients (53%) with Barrett's adenocarcinoma (P less than 0.01). p53 protein overexpression was found in 9% of patients with Barrett's esophagus who had neither high-grade dysplasia nor adenocarcinoma. Whether or not patients whose biopsy specimens show p53 protein overexpression are at increased risk for progression to adenocarcinoma can be determined by prospective endoscopic surveillance.
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PMID:Evaluation of p53 protein expression in Barrett's esophagus by two-parameter flow cytometry. 155 52

Forty-two endometrial carcinomas of various stages of progression were analyzed to search for loss of chromosomal regions and for point mutations of ras genes and amplification of Int-2 gene. This approach is particularly favorable for observation of genetic events and their significance in the process of neoplastic conversion by considering the clinico-pathological characteristics of each tumor. At least 3 genetic events, including 18q, 17p deletions, and point mutations at codon 12 of the K-ras gene, are implicated in the development of endometrial carcinomas. Likely targets for allelic losses on chromosomes 18q and 17p are the DCC gene and the p53 gene sequences, respectively. Overall numbers of allelic losses in individual tumors appeared to increase in case of advanced stage tumors, thereby indicating the association of allelic loss accumulation with tumor progression. The genetic features seen in 2 juvenile-type adenocarcinomas and 2 clear-cell carcinomas suggested the possibility that etiological factors providing selective pressure for particular mutation sub-sets during carcinogenesis are probably heterogeneous.
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PMID:Chromosomal deletions and K-ras gene mutations in human endometrial carcinomas. 156 44

Available evidence suggests that, among hematological malignancies, p53 is most often mutated in Burkitt's lymphoma (BL). However, much of the published data is based on cell lines. We have, therefore, analyzed BL biopsies to determine more accurately the frequency and pattern of p53 mutations in primary tumors and to determine whether there are differences among the various subtypes of BL. Among 27 BL biopsies from South Africa, we have observed mutations in the p53 gene (exons 5 through 8) in 37% of tumors. The higher frequency of mutations in cell lines (70%) suggests that mutation of p53 may be associated with tumor progression. Summarizing available data we conclude that the presence of mutated p53 in BL is independent of the geographic origin of the tumor, the 8;14 chromosomal breakpoint locations and Epstein-Barr virus association. We also find that the mutational spectrum of p53 in BL differs from that observed in nonlymphoid tumors. More than 50% of mutations in BL are clustered in a small stretch of 33 amino acids (codons 213 to 248). Interestingly, codon 213 appears to be as frequently mutated as codon 248. Conversely, codon 273, often mutated in solid tumors, is rarely involved in BL.
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PMID:The pattern of p53 mutations in Burkitt's lymphoma differs from that of solid tumors. 163 40

In vitro investigation of the multistep neoplastic progression which occurs during transformation of human cells has been hindered by resistance of human cells to both immortalization and tumorigenicity (Mut. Res. 199; 273, 1988). Previously our laboratory established a cell line, HSF4-T12, by transfection of normal human foreskin fibroblasts with the plasmid pSV3-neo which contains the early genes of simian virus 40 (SV40). A multistep progression in karyotypic alterations and transformed phenotype occurred resulting in a neoplastic cell line that was immortal, transformed, and tumorigenic. We have examined changes in the SV40 proteins, large T (T-antigen) and small t (t-antigen) antigens, and in the cellular protein, p53, during progressive transformation of these cells. Total viral protein expression relative to total cellular protein increased following immortalization of HSF4-T12 as did the ratio of T-antigen to t-antigen. Interestingly, no significant change in DNA content accompanied immortalization. However, during the progressive in vitro transformation of HSF4-T12 which occurred primarily post-immortalization, DNA index increased to 1.6 but only small additional increases in T-antigen expression were seen. No consistent or critical role for t-antigen in development of the tumorigenic phenotype was found in this system.
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PMID:Viral and cellular oncogene expression during progressive malignant transformation of SV40 transformed human fibroblasts. 166 8

Accumulation of mutations in oncogenes and tumor suppressor genes transforms a normal cell to a malignant cell by allowing it to escape from normal control of growth. In order to learn (a) how many tumor suppressor genes are involved in the tumor progression of hepatocellular carcinoma, (b) whether there is any association among allelic losses of chromosomes, or (c) whether integration of hepatitis B virus into host DNA influences any particular chromosomal losses, we have examined loss of heterozygosity with 44 restriction fragment length polymorphism markers in 46 cases of hepatocellular carcinoma. The markers represented all chromosomal arms except 5p, 8p, 9p, 18p, and acrocentric chromosomes. Allelic losses in tumors indicated that five tumor suppressor genes, located on chromosomes 5q, 10q, 11p, 16q, and 17p, may be involved in this cancer. However, no significant associations were observed among the various allelic losses or between the integration of hepatitis B virus and chromosomal losses. Furthermore, a deletion map for chromosome 16q indicated the localization of a tumor suppressor gene between q22 and q24 and that for chromosome 17p suggested the existence of a second tumor suppressor gene in addition to the p53 gene.
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PMID:Allelotype study of primary hepatocellular carcinoma. 167 Sep 95

The expression of the nuclear phosphoprotein p53 was studied immunohistochemically in a series of 150 benign and malignant colorectal tumors. Using monoclonal antibody PAb1801, tumors divided unequivocally into two groups on the basis of immunohistochemistry. Forty of the carcinomas (46.5%) showed positive staining but only 4 of the adenomas (8.7%) were positive (P less than 0.001). The few positive adenomas always showed moderate or severe dysplasia. Metaplastic polyps (n = 9) and small familial adenomatous polyposis-related adenomas (n = 9) were uniformly negative. Carcinomas with p53 expression did not differ from those without in terms of site, differentiation or the prognostic indicators of Dukes' stage, DNA ploidy, or tumor histology. The improved morphologic resolution available in periodate lysine paraformaldehyde dichromate (PLPD)-fixed, paraffin-embedded tissue permitted several conclusions to be made: p53 is confined to neoplastic nuclei; staining in positive tumors is heterogeneous and often more marked at the infiltrative margins; and staining intensity is dramatically reduced in mitotic cells. It is concluded that expression of immunohistochemically detectable p53 (probably representing mutated forms of the protein) occurs in some adenomas around the time of transition to carcinoma. Therefore there is an association with the appearance of infiltrative behavior but not with degree of tumor progression (including metastasis) at the time of resection.
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PMID:p53 expression in colorectal tumors. 170 33

The two-stage murine skin tumorigenesis model is widely used to study the development of squamous cell neoplasias. We have investigated expression of the p53 and retinoblastoma tumor suppressor genes in eight murine skin tumor cell lines of varied histopathology and malignant potential, in seven in vivo-derived clones from these cell lines, and in 39 primary short-term cultures of similarly induced skin tumors at various stages of tumor progression. One squamous cell carcinoma cell line and three more malignant clones derived from it revealed mutations of the p53 protein by immunoprecipitation analyses despite normal-sized p53 transcripts. Sequence analysis identified the nature of the point mutations in these lines, a G----C transversion in codon 132. Mouse retinoblastoma transcripts and protein were unaltered in all the cell lines examined. Among short-term cultures of skin tumors, the p53 gene appeared normal in all papillomas and early well-differentiated carcinomas by Southern and immunoprecipitation analyses. In contrast, four of eight tumors from later stages of promotion (50-60 weeks) possessed alterations in p53, including loss of the p53 product, and loss of immunoreactivity with a murine-specific antibody recognizing only wild-type p53 protein. Loss of heterozygosity at the p53 locus was similarly observed in several more malignant tumors from later stages of promotion. In contrast retinoblastoma expression was normal regardless of the stage of promotion or histological grade of the tumor. Direct sequence analyses of exons 5 through 8 of the p53 gene in eight advanced murine skin tumors revealed a 25% incidence of p53 mutations. These point mutations were located in codons 245 and 263. Collectively, these data indicate that alterations in the p53 gene occur in 25 to 50% of murine skin tumors induced by the two-stage tumorigenesis protocol and are later events in murine skin tumor progression. Moreover, these alterations are associated with tumors possessing a more malignant and/or poorly differentiated phenotype.
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PMID:Alterations of the p53 tumor suppressor gene during mouse skin tumor progression. 174 35


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