UMLS:C0027651 - FACTA Search

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Human prostate carcinogenesis has been viewed as a multi-step process involving progression from low histologic grade, small, latent carcinoma to large, higher grade, metastasizing carcinoma. However, recent data suggest that a variety of pathogenetic pathways may exist. The precise etiology and pathogenesis of human prostate cancer remain largely undefined. It is difficult to investigate stages in the development of human prostate cancer, but some animal models provide opportunities in this regard. Short-term treatment of rats with chemical carcinogens produces a low incidence (5-15%) of prostate cancer, provided that prostatic cell proliferation is enhanced during carcinogen exposure. Chronic treatment with testosterone also produces a low prostate carcinoma incidence. A high carcinoma incidence can only be produced by chronic treatment with testosterone following administration of carcinogens such as N-methyl-N-nitrosourea (MNU) and 3,2'-dimethyl-4-aminobiphenyl (DMAB). Testosterone markedly enhances prostate carcinogenesis even at doses that do not measurably increase circulating testosterone. Thus, testosterone is a strong tumor promoter for the rat prostate. All such MNU- or DMAB-initiated and/or testosterone-promoted tumors are adenocarcinomas; most originate from the dorsolateral and anterior, but not ventral, prostate lobes. These tumors share a number of important characteristics with human prostate cancer. A high frequency (70%) of activation of the K-ras gene by a G35 to A mutation occurs in these carcinomas. Another high incidence prostate carcinogenesis model, representing a different pathogenetic pathway, involves chronic administration of estradiol-17 beta to rats in combination with low-dose testosterone. The resulting carcinomas are low-grade and originate exclusively from periurethral ducts of the dorsolateral and anterior prostate. While it is unknown whether testosterone is a tumor promoter in this system, preliminary studies indicate the formation of a DNA adduct in the target tissue, which suggests that estradiol-17 beta acts as a tumor initiating agent in this system. The high incidence models mentioned earlier are adequate for the study of chemoprevention of prostatic carcinogenesis. Analysis of shifts in the relative incidence of metastasizing carcinoma, grossly apparent but not-metastasizing carcinoma, microscopic-size carcinoma, and carcinoma in situ or atypical hyperplasia may allow study of the modifying effects of potential chemopreventive agents on tumor progression in these animal models of prostatic carcinogenesis.
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PMID:Animal models for the study of prostate carcinogenesis. 128 79

The authors investigated methods for analysis of oncogenes and tumor suppressor genes in lung cancers and bronchial lesions from high risk patients (retired poison gas factory workers). Amplifications of C-, L-, N-myc, length of terminal repeat array (TRA), mutations of p53 gene, p53 mRNA and K-ras genes were analysed in frozen specimens of surgically resected lung cancers. Various lesions including dysplasia, squamous metaplasia, goblet cell metaplasia, and basal cell hyperplasia were detected in the bronchial epithelium of biopsied specimens from retired poison gas factory workers. Analysis of p53 gene and k-ras gene mutations was performed on these formalin fixed, paraffin embedded samples, but no evidence of mutation has been found to date.
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PMID:[Analysis of oncogenes and suppressor genes in lung cancer and bronchial lesions from high risk group]. 130 37

The cellular basis for pituitary neoplasia is poorly understood. Mutations that activate the ras protooncogenes have been identified in a number of different types of human cancers and potentially represent one of the genetic alterations that occur in pituitary tumors. In this study we examined 19 pituitary tumors for the occurrence of ras mutations. The tumor types included 11 nonfunctioning adenomas, 6 somatotroph adenomas, and 2 prolactinomas. Each of the three ras genes (K-ras, N-ras, and H-ras) was amplified from pituitary tumor DNA using the polymerase chain reaction. Oligonucleotide-specific hybridization was used to screen for mutations that inhibit GTPase activity and cause activation of the ras oncogene. No ras mutations were observed in 18 of the pituitary adenomas. However, a mutation was identified in codon 12 of the H-ras gene (Gly to Val) in a recurrent prolactinoma that was highly invasive and ultimately proved to be fatal. We conclude that ras mutations are uncommon in pituitary adenomas, but may provide a marker for highly invasive tumors.
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PMID:Ras mutations in human pituitary tumors. 131 42

Three patients had supratentorial malignant brain tumors 7 to 9 years after prophylactic central nervous system (CNS) treatment for acute lymphocytic leukemia or malignant T-cell lymphoma. Therapy was administered at the age of 3 to 8 years and included cranial irradiation (total dose, 1800 to 2400 cGy) and intrathecal methotrexate. The brain tumors had histologic and immunohistochemical features of primitive neuroectodermal tumors (PNET), including neuroblastic rosettes, rhythmic arrangement of tumor cells, and immunohistochemical expression of glial, and in one patient neuronal, marker proteins. Using polymerase chain reaction-mediated DNA amplification from paraffin-embedded tissues and subsequent DNA sequence analysis, an activating point mutation was detected in the K-ras protooncogene in one tumor. This mutation was a G to A transition in position 2 of codon 12, substituting aspartate (GAT) for glycine (GGT). This type of mutation has not been observed before in human brain tumors, but it is frequent in radiation-induced murine lymphomas. These observations suggest that PNET can be induced after completion of the embryonal and fetal development of the human CNS. Oncogene-activating point mutations may represent a pathogenetic mechanism involved in the genesis of radiation-induced brain tumors.
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PMID:Primitive neuroectodermal tumors after prophylactic central nervous system irradiation in children. Association with an activated K-ras gene. 131 30

The three ras genes code for proteins with a putative role in cellular signal transduction. They belong to a larger family of small guanosine-triphosphate (GTP)-binding proteins. The ras proteins acquire transforming activity when amino acids are substituted at one of a few specific sites, as a result of a point mutation in the gene. In about one third of adenocarcinomas of the lung, a K-ras mutation is present in codon 12 of the gene. Patients with early stages of K-ras mutation-positive tumors have a very unfavorable prognosis, even if apparently radical resection of the tumor has taken place. K-ras mutations are very rare among nonsmokers, and it is reasonable to assume that carcinogens in tobacco smoke directly cause the mutation. The types of ras mutations found in lung cancer are different from those in gastrointestinal malignancies. Colon cancer is mainly associated with mutations leading to substitution of the normal glycine at amino acid position 12 of K-ras by either valine or aspartic acid, and mutations in N-ras are not exceptional. In contrast, the predominant mutation in lung cancer leads to substitution of cysteine in codon 12. Several other members of the ras gene superfamily are also expressed in human lung cancer, but a possible relationship with lung tumorigenesis remains to be established.
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PMID:The ras gene family in human non-small-cell lung cancer. 132 34

Ras oncogene point mutation, primarily activating the K-ras gene, has been reported in approximately one third of lung adenocarcinomas. This identifies a subset of early stage tumors clinically associated with smoking and an aggressive clinical course. Because of these findings, this study was undertaken to determine the occurrence of ras point mutations in bronchioloalveolar carcinoma. This uncommon form of lung adenocarcinoma is usually indolent but can sometimes present as a rapidly growing, multifocal tumor. Twenty tumor samples obtained at thoracotomy were examined for H-ras, K-ras, and N-ras oncogene mutational activation involving codons 12, 13, or 61. This was performed by an oligonucleotide hybridization technique following polymerase chain reaction amplification of these specific sequences. K-ras point mutation involving codon 12 was observed in two tumors, but not in the adjacent histologically benign lung tissue. These mutations were confirmed by direct sequencing of these polymerase chain reaction products. Both patients were smokers, had stage I tumors, and remain disease-free at 27 and 40 months postoperatively. No H-ras or N-ras point mutations were found. These findings suggest that ras activation is an infrequent event in bronchioloalveolar carcinoma. We speculate that ras activation is not a common transformational event in this form of lung adenocarcinoma.
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PMID:Ras oncogene point mutation: an infrequent event in bronchioloalveolar cancer. 133 21

Genetic alterations of various cancers have been clarified by recent development of molecular biology. Multiple genetic alterations occur through the development of cancer. Both activation of proto-oncogenes and inactivation of tumor suppressor genes are important for the development of cancer. Alterations of oncogenes such as K-ras, c-erbB-2/HER-2/neu and c-myc, and those of tumor suppressor genes such as p53, RB and DCC have been reported in ovarian cancer. Allelic losses of the specific chromosomes, which suggest the existence of tumor suppressor genes on those chromosomes, also have been reported in ovarian cancer. Further studies on genetic alterations of ovarian cancer will clarify the mechanisms for the development of ovarian cancer and also will develop new methods for prevention, diagnosis and treatment in clinical.
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PMID:[Genetic alterations in the genesis and development of ovarian cancer]. 135 31

Pheochromocytomas occur sporadically or in individuals affected by inherited syndromes including multiple endocrine neoplasia (MEN) type 2A and 2B, neurofibromatosis, and the von Hippel-Lindau syndrome (vHL). Medullary thyroid carcinomas (MTCs) also occur sporadically or as part of MEN 2A, MEN 2B, and familial MTC. Little is known of the molecular genetic background of these tumors. We have shown previously that activation of the N-ras, H-ras, and K-ras oncogenes does not occur in these tumors, but that deletions of the short arm of chromosome 1 are extremely common (> 60%) and may indicate loss of a suppressor gene in the chromosomal region 1p31-36. We have examined the structure and expression of N-myc, c-myc, L-myc, c-mos, nerve growth factor (beta-NGF), and the low affinity nerve growth factor receptor (LNGFR) in a series of pheochromocytomas and MTCs from patients with hereditary and sporadic diseases. Southern analysis, using radiolabeled DNA probes, revealed no evidence of amplification or rearrangement of these genes in any normal or tumor tissues except for loss of heterozygosity at the L-myc locus (1p32) in 9 pheochromocytomas from patients with MEN 2A or MEN 2B, in 5 of 11 non-MEN pheochromocytomas, and in 3 of 24 non-MEN MTCs. Gene expression at the RNA level was examined by Northern analysis or ribonuclease protection assay (RPA) using radiolabeled DNA or cRNA probes. C-myc transcripts were detectable at low levels in all tumors tested.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oncogene and growth factor expression in MEN 2 and related tumors. 136 25

The frequency of H-ras, K-ras, and N-ras mutations and the presence of high-risk human papillomavirus (HPV 16, 18, and 33) DNA were studied in 75 paraffin-embedded specimens obtained from 68 Japanese patients with a variety of prostate carcinomas by using polymerase chain reaction and DNA hybridization with sequence-specific oligonucleotides. Ten specimens each of normal and benign hyperplastic prostatic tissues from the same number of patients were also examined for this analysis. Of 68 carcinoma cases, ras gene mutations were present in 16 cases (24%) and HPV DNAs in 28 cases (41%). Eleven mutations were detected in codon 61 of H-ras, 4 in codon 12 of N-ras, and 2 in codon 61 of K-ras. HPV 16, 18, and 33 DNAs were found in 11, 17, and 5 cases, respectively. Eight of the 16 cases with ras mutation also harbored HPV DNAs. The frequency of ras mutations and the HPV infection increased in patients with advanced stages of the tumor and with the higher Gleason score. There was the predominant presence of H-ras codon 61.2 (CAG-->CTG) mutation and HPV 18 DNA in prostatic carcinomas metastasizing to the bone. None of the normal or benign hyperplastic prostatic specimens contained either ras mutation or HPV DNA. Our results suggest that ras gene mutations and HPV infections are relatively frequent, at least in prostate carcinoma of Japanese patients. These two factors appear to be related to the progression of the tumor. Moreover, H-ras codon 61.2 mutation and HPV 18 infection may have some predictive roles for bone metastasis in prostate carcinoma.
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PMID:Presence of ras oncogene mutations and human papillomavirus DNA in human prostate carcinomas. 138 50

The role of ras gene activation in the development of lung tumors induced by N-ethyl-N-nitrosourea (ENU) and N-nitrosodiethylamine (DEN) was evaluated in the A/J mouse, a strain susceptible to chemically induced lung tumors. DNAs isolated from both ENU- and DEN-induced lung tumors were screened for activating mutations in the K-ras gene by utilizing the polymerase chain reaction (PCR) and direct sequence analysis. Mutations in the K-ras gene were detected in 11 of 11 ENU-induced tumors and 23 of 28 DEN-induced tumors. In ENU-induced tumors, there were three GC----AT transitions in the second base of codon 12, and seven AT----GC transitions and one AT----TA transversion in the second base of codon 61. A similar spectrum of K-ras mutations was observed in DEN-induced lung tumors: five GC----AT transitions and two GC----TA transversions in the second base of codon 12, and sixteen AT----GC transitions at the second base of codon 61. Ninety-one percent (31/34) of the observed mutations are consistent with the formation of the promutagenic O4-ethylthymine and O6-ethylguanine adducts in DNA. Therefore, lung tumors from the A/J mouse induced by DEN and ENU could be initiated by the interaction of reactive metabolites with specific sites in the K-ras gene. This is the first clear example of activation of the K-ras gene by ethylating agents in a rodent lung tumor system.
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PMID:Mutagenesis of the K-ras protooncogene in mouse lung tumors induced by N-ethyl-N-nitrosourea or N-nitrosodiethylamine. 139 43

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