UMLS:C0001430 - FACTA Search

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Query: UMLS:C0001430 (adenoma)
21,222 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to define whether all colonic tumors develop from a single transformed cell, we compared two sites each in 40 early-stage colonic carcinomas by K-ras mutation and DNA ploidy pattern. These 40 colonic carcinomas consisted of 26 protruding-type carcinomas and 14 superficial-type carcinomas. The two sites were selected in every tumor tissue and then DNA ploidy pattern and occurrence of K-ras mutation were detected. In cases of "cancer in adenoma", we compared clonality between cancer cells and adenoma cells. In a cytofluorometrical study, it was shown that diploid patterns were predominantly seen in protruding-type carcinomas (76.9%), whereas many superficial-type carcinomas (64.3%) consisted of aneuploid cells. K-ras mutations were more frequently observed in protruding-type carcinomas: 42.3% in protruding-type compared to 21.4% in superficial-type carcinomas. These findings suggested that superficial-type carcinomas have a different mode of carcinogenesis from that of protruding-type carcinomas. Frequently, each pair of sites of the carcinoma tissue carried the same K-ras mutation, and DNA ploidy patterns were essentially the same. However, we encountered some cancers that showed different K-ras mutations in the cancer tissues. In particular, one case of cancer in adenoma demonstrated different K-ras mutations in the cancer and adenoma tissue. These findings suggest that most colonic cancers develop monoclonally, but there are a few cancers (fewer than 5%) that start multiclonally.
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PMID:A possible multiclonal development in human colonic carcinomas. 779 96

Intraductal papillary growth of mucin producing hypersecreting, columnar cells characterizes a group of rare pancreatic exocrine neoplasms which we propose to call intraductal papillary-mucinous tumors (IPMT). We analysed the histopathology of 26 IPMT in relation to gastro-enteropancreatic marker expression, genetic changes and biology. Four IPMT showing only mild dysplasia were considered to be adenomas. Nine tumours displayed moderate dysplasia and were regarded as borderline. Severe dysplasia-carcinoma in situ changes were found in 13 IPMT which were therefore classified as intraductal carcinomas. Six of these carcinomas were frankly invasive and two of these had lymph node metastases. The invasive component resembled mucinous non-cystic carcinoma in all but one tumour which showed a ductal invasion pattern. Immunohistochemically, an intestinal marker type was found in most carcinomas, while gastric type differentiation prevailed among adenomas or borderline tumours. K-ras mutations (seven at codon 12 and one at codon 13) were found in 31% of IPMT (2 adenomas, 1 borderline, 5 carcinomas). Nuclear p53 overexpression was detected in 31% of IPMT (6 carcinomas and 2 borderline IPMT) and correlated with p53 mutations (one at exon 8 and the other at exon 5) in two carcinomas. p53 abnormalities were unrelated to K-ras mutation. c-erbB-2 overexpression was observed in 65% of IPMT, with various grades of dysplasia. Twenty-two of 24 patients are alive and well after a mean post-operative follow-up of 41 months. Only two patients, both with invasive cancer at the time of surgery, died of tumour disease. It is concluded that pancreatic IPMT encompass neoplasms which, in general, have a favorable prognosis, but are heterogeneous in regard to grade of dysplasia and marker expression. Adenoma, borderline tumour, intraductal carcinoma and invasive carcinoma can be differentiated. p53 changes but not K-ras mutation or c-erbB-2 overexpression are related to the grade of malignancy. Most IPMT differ in histological structure, marker expression and behaviour from ductal adenocarcinoma.
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PMID:Intraductal papillary-mucinous tumours represent a distinct group of pancreatic neoplasms: an investigation of tumour cell differentiation and K-ras, p53 and c-erbB-2 abnormalities in 26 patients. 782 Mar

The aim was to determine whether proton magnetic resonance spectroscopy (MRS) could grade human colorectal cells of differing malignant potential. A cell model of tumour development and progression comprising 2 non-tumorigenic adenoma lines and 4 carcinoma lines of increasing tumorigenicity was chosen. A gradual reduction in cellular differentiation and an accumulation of genetic alterations from adenoma to carcinoma characterized the selected cell lines. One-dimensional and 2-dimensional MRS showed that reduced differentiation in the cell model correlated with an increase in the levels of lipid, metabolites, the glycosylation intermediate uridine diphospho-N-acetylglucosamine and cell-surface fucosylation. Mutations involving the K-ras, APC and DCC genes are present both in adenoma- and in carcinoma-derived lines in this model, but the first evidence of an abnormality in the p53 gene was concomitant with the cells' ability to grow as a tumour in athymic nude mice. This genetic change coincided with the detection, by MRS, of UDP-hexose (ribose moiety, 2D MRS cross peak between H2 at 4.38 ppm and HI at 5.99 ppm) and the appearance of an additional fucosyl resonance (cross peak between-CH3 at 1.41 and H5 at 4.30 ppm) in the least tumorigenic of the carcinoma cell lines. An increase in complexity of the fucosylation spectral pattern was observed with further cellular de-differentiation and increased tumorigenicity. Collectively these data support the existence of an adenoma-carcinoma sequence.
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PMID:Correlation of cellular differentiation in human colorectal carcinoma and adenoma cell lines with metabolite profiles determined by 1H magnetic resonance spectroscopy. 792 26

Oxazepam is a benzodiazepine widely used as a sedative-hypnotic and antianxiety drug. In chronic studies, groups of 60 male and 60 female Swiss-Webster (SW) or B6C3F1 mice received oxazepam in feed at concentrations of 0,2500, or 5000 ppm. Additional groups of 60 male and female B6C3F1 mice received 125 ppm in feed to allow for study of mice with serum concentrations of oxazepam similar to those achieved in humans taking a therapeutic dose. At 57 weeks, treatment-related mortality of exposed SW mice caused the study to be terminated. Enhanced systemic amyloidosis contributing to heart failure was considered the principal cause of death. Hepatocellular adenomas and carcinomas were increased in exposed SW mice. Survival of B6C3F1 mice receiving 2500 and 5000 ppm oxazepam was also lower than that of controls. Early deaths were due to increased incidences of hepatoblastoma and hepatocellular carcinoma, and nearly all mice receiving 2500 or 5000 ppm developed hepatocellular neoplasia. An increase in follicular cell hyperplasia of the thyroid gland occurred in all exposed groups of B6C3F1 mice, and thyroid gland follicular cell adenoma was increased in exposed females. Further studies of the capacity of oxazepam to induce liver cell mitogenesis and an evaluation of the frequency of activated H- and K-ras oncogenes in the liver tumors of B6C3F1 mice has shown that many of the neoplastic and nonneoplastic responses of mice to oxazepam resemble those observed with phenobarbital.
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PMID:Carcinogenicity studies of oxazepam in mice. 798 36

6-Nitrochrysene (6-NC), an environmental pollutant and a potent mouse lung carcinogen, is activated by two major metabolic pathways to yield DNA adducts derived from either trans-1,2-dihydro-1,2-dihydroxy-6-aminochrysene (1,2-DHD-6-AC) or N-hydroxy-6-aminochrysene (N-OH-6-AC). While the former pathway has been shown to be the major activation pathway leading to DNA adducts in mice treated with 6-NC, the potential contribution of the minor nitroreduction pathway to tumorigenicity in this system is not clear. To evaluate the roles of these activation pathways and the resulting DNA adducts in mouse lung tumorigenesis, we studied DNA adduct formation, the induction of tumors and tumor K-ras mutational spectra in the lungs of male CD-1 mice treated with 6-NC and its metabolites. 6-NC, 6-AC and 1,2-DHD-6-AC produced predominantly a single chromatographically identical dG adduct, and 6-nitrosochrysene (6-NOC) gave a single major adduct that was most likely derived from reaction at the C8 position of deoxyadenosine. 6-NC-, 1,2-DHD-6-AC- and 6-NOC-treated mice developed both adenomas and adenocarcinomas in the lung, whereas only lung adenomas were observed in 6-AC-treated animals. K-ras mutations in adenomas resulting from 6-NC and its metabolites were primarily at G:C basepairs in codons 12 and 13, while adenocarcinomas had K-ras mutations distributed between codons 12, 13 and 61, and involved both G:C and A:T basepairs. The K-ras mutational spectra in codons 12 and 13 were similar in both adenomas and adenocarcinomas whereas a higher percentage of mutations at A:T in codon 61 was found in adenocarcinomas. These results support the conclusion that the 1,2-DHD-6-AC-derived adduct is associated with both adenoma and adenocarcinoma formation and is the primary lesion involved in the induction of mouse lung tumors by 6-NC. The major adduct detected after 6-NOC treatment, which is derived from N-OH-6-AC, is apparently less efficient as an inducer of mouse lung tumors and is associated more specifically with adenocarcinoma formation.
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PMID:Relationships of DNA adduct formation, K-ras activating mutations and tumorigenic activities of 6-nitrochrysene and its metabolites in the lungs of CD-1 mice. 803 14

To investigate genetic features in small and flat colorectal carcinomas that arise de novo, we searched for genetic alterations in six sporadic tumors by examining their APC, K-ras, and p53 genes. Two of the six tumors carried detectable mutations within the mutation cluster region (MCR) of the APC gene; both mutations were predicted to cause truncation of the gene product. Four tumors carried mutations of the p53 gene; three were missense mutations in exon 5, and the other was a 3-bp deletion in exon 6. However, neither codon 12 nor codon 13 of K-ras contained detectable mutation in any tumors. Hence, as "adenoma-carcinoma sequence" model of development of colorectal carcinoma, inactivation of the APC and p53 genes appear to be involved in development of the de novo type of colorectal carcinoma even though the adenoma stage is not observed.
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PMID:APC and p53 mutations in de novo colorectal adenocarcinomas. 808 86

Although pituitary tumors arise as benign monoclonal neoplasms, genetic alterations have not readily been identified in these adenomas. We studied restriction fragment abnormalities involving the GH gene locus, and mutations in the p53 and H-, K- and N-ras genes in 22 human GH cell adenomas. Twenty two nonsecretory adenomas were also examined for p53 and ras gene mutations. Seven prolactinoma DNA samples were tested for deletions in the multiple endocrine neoplasia-1 (MEN-1) locus, as well as for rearrangements in the hst gene, a member of the fibroblast growth factor family. Pituitary adenoma tissue and lymphocytes were obtained from patients at the time of transsphenoidal surgery. In DNA from GH-cell adenomas, identical GH restriction patterns were detected in both pituitary and lymphocyte DNA in all patients and in one patient with a mixed GH-TSH cell adenoma. Using polymerase chain reaction (PCR)-single stranded conformation polymorphism analysis, no mutations were detected in exons 5, 6, 7, and 8 of the p53 gene in GH cell adenomas nor in 22 nonsecretory adenomas. Codons 12/13 and 61 of H-ras, K-ras, and N-ras genes were also intact in GH cell adenomas and in nonsecretory adenomas. Site-specific probes for chromosome 11q13 including PYGM, D11S146, and INT2 were used in 7 sporadic PRL-secreting adenomas to detect deletions of the MEN-1 locus on chromosome 11. One patient was identified with a loss of 11p, and the remaining 6 patients did not demonstrate loss of heterozygosity in the pituitary 11q13 locus, compared to lymphocyte DNA. None of these patients, demonstrated hst gene rearrangements which also maps to this locus. These results show that p53 and ras gene mutations are not common events in the pathogenesis of acromegaly and nonsecretory tumors. Although hst gene rearrangements and deletions of 11q13 are not associated with sporadic PRL-cell adenoma formation, a single patient was detected with a partial loss of chromosome 11, including the putative MEN-1 site.
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PMID:Molecular screening of pituitary adenomas for gene mutations and rearrangements. 810 Aug 31

We describe the spontaneous progression of a colon adenoma cell line to tumorigenicity and growth factor independence. This system allows direct comparison of biologic stages of malignant progression with alterations of colon cancer suppressor genes and oncogenes. VACO-235, a human colon adenoma cell line, is at early passages nontumorigenic in the nude mouse, unable to grow in soft agar, growth stimulated by serum and EGF, and growth inhibited by TGF-beta. VACO-235 daughter passages 93 and higher have in culture spontaneously progressed to being weakly tumorigenic, but retain all other growth characteristics of VACO-235 early passages. A mouse xenograft from late passage VACO-235 was reestablished in culture as the granddaughter cell line, VACO-411. VACO-411 is highly tumorigenic, clones in soft agar, and is unresponsive to serum, EGF, and TGF-beta. Early passage VACO-235 bears a mutant K-ras allele, bears only mutant APC alleles, expresses no DCC transcripts, and expresses only wild type p53 transcripts. VACO-411 retains the identical genotype, still expressing only wild type p53. Colonic cells after ras mutation, APC mutation, and DCC inactivation remain nontumorigenic and growth factor dependent. Malignant progression involves at least two additional steps, and in VACO-411 can proceed by a novel pathway not requiring p53 inactivation.
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PMID:A benign cultured colon adenoma bears three genetically altered colon cancer oncogenes, but progresses to tumorigenicity and transforming growth factor-beta independence without inactivating the p53 tumor suppressor gene. 813 40

In order to clarify genetic changes in flat adenomas, K-ras codon 12 point mutations were examined in 56 flat adenomas, 81 polypoid adenomas and 42 cancers of colon and rectum. The mutation frequency in flat adenomas was 23% (13/56), significantly lower than that in polypoid adenomas (67%: 54/81) and cancers (76%: 32/42). Even mildly dysplastic adenomas or small (less than 5 mm) adenomas showed higher mutation incidence in polypoid type (62%, 57%) than in flat type (23%, 19%). Among flat adenomas, flat elevated lesions exhibited relatively higher mutation frequency than completely flat or depressed ones. As for cancers, 14 tumors (33%) contained mutations only in a minor tumor cell population, indicating that these mutations occur at a late stage of tumorigenesis. These results suggest that the adenoma-carcinoma sequence through flat adenomas may be different from that through polypoid adenomas, and genetic changes may be heterogeneous in colorectal carcinogenesis.
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PMID:Lower incidence of K-ras codon 12 mutation in flat colorectal adenomas than in polypoid adenomas. 814 96

Mutation of the p53 gene is thought to be a late event in human colorectal carcinogenesis, involved in the malignant conversion of the adenoma to the carcinoma. One of the questions that we hoped to address was whether, in vivo, a single mutational event in one p53 gene is sufficient to confer a significant growth advantage on a colonic epithelial cell. Such a growth advantage could result either from an increase in growth rate and/or loss of response to inhibitory growth signals naturally present in the colonic crypt. We therefore introduced the pC53-SCX3 143 (Val-Ala) p53 mutation into a non tumorigenic adenoma derived cell line, AA/C1, which contained a truncating APC mutation, activating K-ras mutation but was wild-type for the p53 protein. High levels of mutant p53 protein were detected in the pC53-SCX3 transfected AA/C1 cell lines but was found not to affect either the in vitro (colony forming efficiency, anchorage independence) or in vivo (tumorigenicity in nude mice) growth, when compared to vector control or the parental AA/C1 cell line. In addition, to test whether the cells become less sensitive to inhibitory growth factors, the response of the cell lines to the naturally occurring growth inhibitor TGF beta was also investigated. Even though TGF beta had previously been implicated in the control of growth of intestinal epithelium, expression of the mutant p53 protein did not affect the sensitivity of the parental AA/C1 cell line to TGF beta. Under the experimental conditions tested expression of the 143 (Val-Ala) p53 protein was unable to affect the in vitro or in vivo growth characteristics of the adenoma derived AA/C1 cell line. When compared to other studies, these results suggest that the genetic background of the individual recipient cell may greatly influence the effect of expression of a particular p53 mutation.
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PMID:Transfection and expression of mutant p53 protein does not alter the in vivo or in vitro growth characteristics of the AA/C1 human adenoma derived cell line, including sensitivity to transforming growth factor-beta 1. 815 11

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