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Query: UMLS:C0007095 (
carcinoid
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Activation of ras oncogenes is commonly found in human neoplasms. We have investigated 280 human lung cancer specimens for ras activation, including 38 that have not been reported previously, using an oligonucleotide detection assay. From a total of 141 adenocarcinoma samples from smokers, 41 tested positive for a point mutation in codon 12 of
K-ras
(30%), while three tumors had another type of ras activation. Only two of 40 cases from nonsmokers had a
K-ras
mutation (5%), suggesting that
K-ras
mutations may be directly caused by exposure to carcinogens in tobacco smoke. The majority of the point mutations in adenocarcinomas were guanine to thymine transversions in codon 12 of the
K-ras
oncogene. Occasional point mutations in ras oncogenes were detected in adenosquamous carcinomas (one of five cases) and large cell carcinoma (one of 24 cases), but no ras activations were found in small cell carcinomas (six cases), squamous carcinomas (48 cases),
carcinoid
carcinomas (15 cases), or thymoma (one case). Analysis of the clinical and pathological features of the adenocarcinoma cases showed no apparent associations between the
K-ras
activation and age at diagnosis, sex, disease stage, and the occurrence of other neoplasms.
K-ras
-positive adenocarcinomas tended to be less differentiated than the
K-ras
-negative ones (P = 0.044, chi 2 test for trend).
K-ras
mutations identify a subgroup of patients with adenocarcinoma of the lung who have a very poor prognosis despite radical resection of their tumor. Although
K-ras
has been proposed as a target for antitumor therapy, its major clinical significance could be to aid in the selection of patients for specific therapeutic interventions, such as adjuvant chemotherapy.
...
PMID:Clinical significance of ras oncogene activation in human lung cancer. 156 97
To examine a potential contribution of protooncogene abnormalities other than point-mutational activation of the
K-ras
protooncogene in the classification of non-small cell lung cancer, amplification of cellular protooncogenes was studied in 47 lung tumour specimens obtained at thoracotomy and in four lung tumour cell lines. The primary tumours included 21 adenocarcinomas, nine large-cell carcinomas, 13 epidermoid carcinomas, one
carcinoid
and three metastases of primaries outside the lung. The copy numbers per haploid genome of 11 protooncogenes in every tumour sample were determined: H-ras,
K-ras
, N-ras, c-myc, N-myc, L-myc, erbB, mos, myb, ncu (erbB-2) and ral amplifications. The c-myc gene was amplified 5-7-fold in two adenocarcinomas, the H-ras gene 3 5-fold in one adenocarcinoma, while the
K-ras
and the neu gene were amplified in lung metastases from a colorectal and a breast cancer primary respectively. None of the tumours with an amplified protooncogene simultaneously harboured a mutationally activated
K-ras
gene. We conclude that amplification of the investigated protooncogenes is a rare event in non-small cell lung cancer. In view of the two c-myc amplifications detected, a systematic study of c-myc expression levels in non-small cell lung cancers appears worthwhile.
...
PMID:Cellular protoonocogenes are infrequently amplified in untreated non-small cell lung cancer. 254 15
To define the role of cellular oncogenes in human cancers, we studied the prevalence of mutational activation of ras oncogenes in untreated non-small-cell lung cancer. Genomic DNA was extracted from 39 tumor specimens obtained by thoracotomy and was examined for activating point mutations in codons 12, 13, and 61 of the H-ras,
K-ras
, and N-ras genes. A novel, highly sensitive assay based on oligonucleotide hybridization following an in vitro amplification step was employed. The
K-ras
gene was found to be activated by point mutations in codon 12 in 5 of 10 adenocarcinomas. Two of these tumors were less than 2 cm in size and had not metastasized. No ras gene mutations were observed in 15 squamous-cell carcinomas, 10 large-cell carcinomas, 1
carcinoid
, 2 metastatic adenocarcinomas from primary tumors outside the lung, and 1 small-cell carcinoma. An approximately 20-fold amplification of the unmutated
K-ras
gene was observed in a tumor that proved to be a solitary lung metastasis of a rectal carcinoma. We conclude that mutational
K-ras
activation may be an important early event in the pathogenesis of adenocarcinoma of the lung but that amplification of ras genes or mutational activation of H-ras or N-ras does not play a major part in non-small-cell lung cancer.
...
PMID:Mutational activation of the K-ras oncogene. A possible pathogenetic factor in adenocarcinoma of the lung. 304 Dec 18
Neuroendocrine tumors of lung, including typical
carcinoid
(TC), atypical
carcinoid
(AC), large cell neuroendocrine carcinoma (LCNEC), and small cell lung carcinoma (SCLC) constitute a spectrum of malignancies in which the pathologist at times has difficulty in discerning tumor subtype and aggressiveness in a reproducible fashion. Therefore, 59 primary neuroendocrine lung tumors including 10 TCs, 26 ACs, 15 LCNECs, and 8 SCLCs were selected from cases collected from 1976 to 1988 and immunostained for p53 protein. All of these tumors were also genotyped for specific point mutational damage affecting p53 (exons 5, 7, and 8; with ACs additionally sequenced for p53 exon 6); 13 tumors for
K-ras
-2 (exon 1); and 31 tumors for c-raf-1 (exon 15) growth-regulatory genes. Genotyping was performed on topographically selected, minute tumor samples removed from unstained formalin-fixed, paraffin-embedded tissue sections (topographic genotyping) using polymerase chain reaction and direct sequencing. The distribution of p53 immunohistochemical staining had four patterns: negative in TCs, one-half of ACs, 3 of 15 LCNECs, and 1 of 8 SCLCs; less than 10% but more than five tumor cells per 10 high power fields (focal) in a subset (7 of 26) of aggressive ACs; 10 to 49% of tumor cells (patchy) in a subset (6 of 26) of ACs with a higher grade of aggressiveness; and 50 to 100% of tumor cells (diffuse), exclusively seen in LCNECs (12 of 15) and SCLCs (7 of 8). Three patterns of immunohistochemical staining intensity of p53 protein were seen: negative, weak or mild, and moderate to marked. SCLCs and LCNECs accounted for cases of moderate to marked staining and were the only ones to have mutations in p53 exons 5, 7, or 8. No mutations were found in AC and TC, showing absent to weak staining and no staining, respectively. The difference in distribution and staining intensities between LCNEC and SCLC compared with AC and TC was statistically significant (P < 0.001). Patients having AC with patchy p53 immunostaining usually had survival limited to 3 years, whereas those having AC with focal p53 immunostaining subsequently developed metastatic or recurrence of AC disease (P < 0.05). The absence of point mutations in cases with patchy or focal immunostaining suggests increased expression of wild-type p53 tumor suppressor protein likely in response to growth deregulation in a more aggressive subtype of AC. A novel hypothesis is presented in regard to these findings.
K-ras
-2 and c-raf-1 gene sequence analysis showed no evidence of point mutational change in any of the tumors studied. The TC and AC categories are therefore genetically distinct from the higher grade neuroendocrine SCLC and LCNEC. Immunohistochemistry for p53 on AC lung tumors may be helpful to delineate cases at higher risk for aggressive behavior. Additionally, although LCNEC is categorized as a non-small-cell carcinoma, it is more akin genetically and immunohistochemically to SCLC.
...
PMID:Analysis of p53, K-ras-2, and C-raf-1 in pulmonary neuroendocrine tumors. Correlation with histological subtype and clinical outcome. 862 22
By using a modified polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) technique, we detected
K-ras
codon 12 mutation in 102 formalin-fixed, paraffin-embedded tissues from surgical samples of lung cancer patients. The X2 test was used to determine the statistical significance of difference, according to the presence or absence of mutation in codon 12 of
K-ras
oncogene. We found 25 cases (24%) positive for mutation of
K-ras
12 codon. Mutation occurred in 6 of the 40 cases (15%) of squamous cell carcinoma, 18 of 37 adenocarcinoma cases (49%), 1 of 2 adenosquamous cases, 0 of 1
carcinoid
patient, but no
K-ras
activation was found in small cell carcinoma (0/22) cases. Analysis of the clinical and pathological features of 37 adenocarcinoma cases showed no apparent associations between the
K-ras
codon 12 mutation and sex, disease stage, tumor size (T), metastatic status (M) and the degree of differentiation (all P values greater than 0.05), but the nodes (N) of
K-ras
-positive adenocarcinoma tended to be more than the
K-ras
-negative ones (P < 0.01). From 26 male cases of adenocarcinoma mutation in codon 12 of
K-ras
occur more frequently in adenocarcinoma from smokers than non-smokers (P < 0.05), suggesting that smoking is an important factor in the induction of the mutation. Among 37 adenocarcinoma cases, only 25 cases can be traced the recurrence rate in 1-year. The 1-year recurrence rates were 85% (11/13) in
K-ras
mutational patients, more than 25% (3/12) in
K-ras
negative ones (P < 0.01), whereas there was no relationship between recurrence and differentiation in these 25 cases. The findings suggest the
K-ras
gene mutation may be one of the prognostic markers for human lung adenocarcinoma.
...
PMID:[Detection of K-ras oncogene activation in human lung cancer and its possible clinical application]. 876 79
Although the molecular genetic changes that take place during carcinogenesis in the large bowel have been well elucidated, very little work has been done on the carcinogenesis process in the small bowel where this phenomenon is much rarer. The few studies that have been done to suggest that certain oncogenes, i.e., erbB2,
K-ras
, cyclin D1, and p53, are all altered in ways and in frequency similar to these phenomena in large bowel cancer. Some tumor markers have been noted to occur in malignant
carcinoid
tumours as well. Given the overall similarities in the epidemiology and the role of the adenoma-carcinoma sequence for both small bowel adenocarcinoma and colorectal adenocarcinoma, it is highly likely that the same molecular genetic changes play a major role. Further work is needed to confirm this. If true, a potentially important are of future research would be to determine why these molecular genetic changes occur so much less frequently in the small bowel as compared to the large bowel.
...
PMID:Molecular genetics of small bowel cancer. 929 83
In order to determine the topographical distribution of the
K-ras
codon 12 mutations in carcinoma and preneoplastic lesions of the lung, selective ultraviolet radiation fractionation, as well as microdissection followed by polymerase chain reaction-restriction fragment length polymorphism (PCR-RELP), was performed. Fourteen of 61 samples amplified (23.0%) had a mutation in the
K-ras
codon 12. Of 41 adenocarcinoma, 12 samples (29.3%) had a mutation, whereas none of the squamous cell carcinomas had a mutation. One of six large-cell carcinomas, one of three
carcinoid
tumours and none of three other carcinomas had a mutation. Direct sequencing revealed that
K-ras
codon 12 of six samples were TGT (Cys), five samples were GTT (Val), two samples were GCT (Ala) and one sample was TTT (Phe). A total of 113 lesions of 13 cases covered by dot were amplified after UV radiation. All of 74 carcinoma lesions had the mutation, and intratumour heterogeneity was not observed. Of 39 non-malignant lesions, one type II cell hyperplasia had the mutation, which suggests that the
K-ras
mutation occurs in the early stage of carcinogenesis. The lack of intratumour heterogeneity supports the hypothesis.
...
PMID:K-ras point mutation occurs in the early stage of carcinogenesis in lung cancer. 951 49
Objective. We studied the molecular abnormalities involved in the pathogenesis of endocrine tumors of the uterine cervix. Methods. We obtained DNA from precisely microdissected archival tissue from 15 endocrine tumors of the uterine cervix, consisting of 5 carcinoids (1 typical, 4 atypical), 2 large cell neuroendocrine carcinomas, and 8 small cell carcinomas. We investigated the presence of high-risk (types 16 and 18) and intermediate-risk (types 31 and 33) human papilloma virus (HPV) sequences, TP53 and
K-ras
gene mutations, and loss of heterozygosity (LOH) at 9 genes/chromosomal regions, including 3p14.2/FHIT, 3p14-p21, 3p21, 3p22-p24, 5q21-q22/APC-MCC region, 9p21/CDKN2, 11q23/MEN1, 13q/RB, and 17p/TP53. Results. HPV sequences were detected in 8 (53%) tumors, HPV 16 in 2 cases, and HPV 18 in 2 cases. LOH at 9p21 (43%) and localized 3p deletions (47%) were the most frequent allelic losses found. Allelic losses at 5q21-q22/APC-MCC region, 11q23/MEN1, and 13q/RB were infrequent. TP53 gene mutations were detected in 7 (47%) tumors (1 atypical
carcinoid
and 6 carcinomas). HPV sequences were demonstrated in 4 of the 7 cases with TP53 gene mutations. No
K-ras
mutations were detected. Conclusion. The molecular changes present in endocrine tumors of the uterine cervix have distinct features. They incorporate those present in the neuroendocrine tumors of the lung (high frequency of TP53 gene abnormalities and 9p21 deletions) with those detected in squamous cell carcinomas of the cervix (high-risk HPV sequences and localized 3p deletions).
...
PMID:Molecular abnormalities associated with endocrine tumors of the uterine cervix. 988 21
Lung cancer incidence is increasing in women with little or no tobacco exposure, and the cause of this trend is not known. One possibility is increased sensitivity to environmental tobacco smoke in women nonsmokers diagnosed with lung cancer. To determine whether mutations associated with tobacco exposure are found in the lung tumors of women who are lifetime nonsmokers or occasional smokers, we compared the p53 and
K-ras
mutational spectra in lung carcinomas from 23 female nonsmokers, 2 female occasional smokers (< 10 pack-years), and 30 female long-term smokers (20-100 pack-years). We also looked for p53 and
K-ras
mutations in three
carcinoid
lung tumors, two from female nonsmokers and one from a female occasional smoker. For the p53 gene, exons 4-8 were examined for mutations; for the
K-ras
gene, exon 1 was examined. No mutations were found in the
carcinoid
tumors. In lung carcinomas, p53 mutations were identified in six (26.1%) of the cases from lifetime nonsmokers and consisted of five transitions (including three C to T, one G to A, and one T to C) and one T to A transversion. In comparison, p53 mutations were identified in 10 (31.3%) of the 32 lung carcinomas from short-term and long-term smokers and consisted of six transversions (four G to T, one A to T, and one G to C), one A to G transition, one C to T transition, and two deletions of one to four bp. Mutations in the p53 gene found in nonsmokers also occurred in either different codons or different positions within a codon compared with those seen in long-term smokers.
K-ras
mutations in codon 12 were identified in two lung carcinomas (8.7%) from lifetime nonsmokers. The
K-ras
mutations found were a G to T transversion and a G to A transition. Eight (25%) of the 32 lung carcinomas from smokers contained
K-ras
mutations in codons 12 and 13 (four G to T transversions and four G to A transitions). In addition, six silent mutations that are most likely polymorphisms were found in both smokers and nonsmokers. These results confirm that
K-ras
mutations are more frequent in smokers than in nonsmokers, but that the same type of mutation in the
K-ras
gene is found in both groups. In contrast, although the frequency of mutation in the p53 gene was similar in lifetime nonsmokers compared with long-term smokers, the types and spectra of mutation are significantly different. Two of the C to T transitions found in nonsmokers, but none of those found in smokers, occur at the C of a CpG site. These results suggest the mutagen(s) and/or mechanisms of p53 mutations in women nonsmokers are different from those responsible for p53 mutations in women smokers, which are probably largely induced by tobacco mutagens.
...
PMID:Comparison of mutations in the p53 and K-ras genes in lung carcinomas from smoking and nonsmoking women. 1020 32
This study screened 11 samples of typical
carcinoid
(TC), 4 samples of atypical
carcinoid
(AC), 1 sample of large cell neuroendocrine carcinoma (LCNEC), and four metastases for point mutations in exons 5 to 8 of the p53 gene, and exons 1 and 2 of the
K-ras
. H-ras, and N-ras genes using polymerase chain reaction (PCR)-single-strand conformation polymorphism (SSCP) and direct sequencing and by immunohistochemistry for p53. Exon 1 of
K-ras
was mutated in two samples of low-grade AC and a metastasis from one of these tumors (GAT12 and AGT12, respectively). No mutations in N-ras or H-ras were found. Mutations in exons 5 and 8 of the p53 gene were identified in a high-grade AC and a LCNEC. Positive immunostaining for p53 was present in three samples, with only one genotypic mutation shown (LCNEC). In conclusion, point mutations of the p53 gene were infrequent in these pulmonary neuroendocrine tumors, did not correlate in all samples with immunostaining, and were associated with the higher-grade tumors. Second, the presence of
K-ras
mutations seems to be associated with the higher-grade carcinomas. Third, N-ras and H-ras mutations were not found with these pulmonary neuroendocrine tumors.
...
PMID:Analysis of K-ras, N-ras, H-ras, and p53 in lung neuroendocrine neoplasms. 1047 81
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