Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04626 (erbB-2)
 5,251 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytogeneticists first proposed that the karyotypic abnormalities identified on chromosomes 1, 3, 6, 11, 13, 16, 17, and 18 supported a genetic basis for breast cancer. Such abnormal banding patterns, however, may represent either loss-of-function or gain-of-function molecular events. RFLP analyses have since confirmed that 20-60% of primary and spontaneous human breast tumors exhibit allelic losses on these same chromosomes, although the exact genes involved at these chromosomal sites remain largely unknown. Knowledge gained about the Rb-1 and p53 tumor suppressor genes at 13q14 and 17p13 in breast and other human tumors supports the paradigm that for any chromosomal locus, allelic loss associated with a mutation in the remaining tumor allele signifies an involved tumor suppressor gene. Given this paradigm, there are nearly a dozen putative breast tumor suppressor genes under active investigation, with most investigators now focusing on various chromosome 17 loci. Among the known proto-oncogenes found activated in breast cancer, amplification of c-erbB-2 at 17q21 is the most widely studied and clinically significant gain-of-function event uncovered to date, occurring in about 20% of all primary breast tumors. The involvement of this overexpressed membrane receptor has engendered interest in related tyrosine kinase receptors, such as EGFR, IR, and IGF-I-R, as well as their respective ligands, which may be overexpressed in a greater fraction of tumors, contributing to the autocrine and paracrine regulation of breast cancer growth and metastasis. New attention is being given to the potentially oncogenic function of structurally altered nuclear transactivating steroid hormone receptors, such as ER, whose overexpression has long been used to determine endocrine therapy and prognosis for individual breast cancer patients. While c-myc was one of the first known proto-oncogenes to be found amplified and overexpressed in human breast cancers, the actual incidence and clinical significance of its activation remain disputed and in need of further study. Lastly, we can expect greater clarification about the importance of various 11q13 genes found coamplified in nearly 20% of primary breast cancers, and pursuit into the intriguing possibility that a cyclin-encoding gene represents the overexpressed locus of real interest in this amplicon. Virtually all of these important genetic abnormalities identified thus far are associated with but not restricted to human breast cancers. The absence of identifiable molecular defects relating to the tissue specificity of this malignancy must be considered a substantial gap in our basic understanding of breast carcinogenesis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activated oncogenes and putative tumor suppressor genes involved in human breast cancers. 136 56

The goal of this study was to evaluate the extracellular matrix (ECM) as a model for growing human lung cancers and to study the feasibility of its application for cellular and molecular studies of tumor biology. Bovine corneal endothelial cell ECM coated dishes were evaluated as a growth substrate for tumor cultures. Growth success, morphology and oncoprotein/growth factor expression for 74 different lung cancers (adenocarcinoma, epidermoid carcinoma and small cell carcinoma) were compared after seeding fresh surgical explants onto bovine corneal endothelial cell ECM and plastic culture substrate. Nineteen out of 74 tumors (26%) plated on ECM demonstrated measurable growth. Growth on ECM was superior to growth on plastic for the lung tumors. All 19 tumor cultures showed malignant morphology and functions. They were examined under the light microscope, and in all cases pre- and post-cytology confirmed malignancy. Tumor cells seeded on ECM retained their malignant phenotype in comparison to tumors grown on plastic. Several oncoproteins (c-myc, c-Ha-ras, c-erbB-2) and growth factors/receptors (EGF, EGF-R, TGF alpha) were immunostained. These analyses were performed immediately after disaggregation of tumor cells obtained surgically and after seeding on ECM or plastic. Strong expression of oncoproteins/growth factors was detected in tumor cells immediately after surgery or when the cells were plated on ECM. On the other hand, moderate or no expression was observed in the same type of cells on plastic.
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PMID:Human lung cancers growing on extracellular matrix: expression of oncogenes and growth factors. 136 16

Tumorigenesis is a multistep process involving mutations of dominantly acting proto-oncogenes and mutations and loss-of-function mutations of tumor suppressor genes. Some of these mutations may be inherited, but most of them are acquired. Models for the sequential steps of the genetic changes involved in tumor development have been proposed for certain cancers, such as colon cancer. In the case of ovarian cancer, relatively little is known about the genetic events associated with the initiation or subsequent progression and metastases of the tumor. Cytogenetic analysis has revealed a high incidence of both structural and numerical chromosome changes, and the extent of these changes seems to increase with tumor progression. Oncogene activations of the proto-oncogenes K-ras, c-myc and c-erbB-2 have been found more frequently in aggressive ovarian tumors and may be associated with poor survival. Tumor-specific allele loss involving putative tumor suppressor genes has been observed for loci at chromosomes 11p, 17p, and 17q,--loci commonly deleted in other cancers too. A relatively high incidence of allelic loss on chromosome 6q appears to be specific to ovarian carcinoma. Familial breast/ovarian cancer has been suggested to map to chromosome 8q. Recently we have found a germ-line mutation in the tumor suppressor gene p53 in a family with breast- and ovarian cancers, indicating that this is the predisposing gene in this family. Genetic changes important for the etiology of ovarian cancers seem to involve both somatic mutations of oncogenes and somatic or germ-line inactivation of tumor suppressor genes.
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PMID:Oncogenesis in ovarian cancer. 150 89

The c-myc proto-oncogene was analyzed in 311 cases of primary breast cancer, in 8% of which it was found to be amplified, usually at moderately increased copy number (2-5 copies). The adjacent pvt gene was co-amplified with c-myc in all tumors analyzed. C-myc amplification was significantly correlated to a high S-phase fraction and to amplification of the c-erbB-2 proto-oncogene. Weak relationships were found between c-myc amplification and the presence of lymph-node metastasis, advanced stage, DNA non-diploidy and premenopausal status, but not tumor size, estrogen receptor or progesterone receptor status, or int-2 amplification. C-myc amplification, and especially a high gene copy number (greater than 5 copies), was significantly related to early recurrence and death in breast cancer, a relationship seen in both the lymph-node-negative and node-positive subcategories. A particularly strong correlation with poor clinical outcome was seen in postmenopausal patients (p greater than 0.0005), an association which persisted in multivariate survival analysis. We conclude that the activation of c-myc is indeed associated with rapidly growing and progressive breast cancer. Gene amplification, on the other hand, is relatively infrequent and occurs mostly at low copy number, implying that tumors are heterogeneous with respect to cell clones harboring c-myc amplification. An immunohistochemical assessment would more accurately illustrate the importance of c-myc activation in human breast cancer. However, the obvious instability of the c-myc transcript and translate suggests that c-myc is not a suitable prognostic marker for routine purposes.
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PMID:c-myc amplification is an independent prognostic factor in postmenopausal breast cancer. 161 75

In 43 cases of adenoid cystic carcinomas of the salivary glands (ACC), expressions of the oncogene products such as epidermal growth factor receptor (EGF-R), erbB-2 product, c-myc product and N-myc product were investigated immunohistochemically. First, we confirmed the specificity of the antibodies used with the 13 cell lines. Of the anti-EGF-R antibodies, clone 29. 1. 1 reacted only with A431 but not with the other cell lines overexpressing EGF-R, so that it was most likely to cross-react with the blood type A antigen. Also, the anti-N-myc product antibody revealed the presence of a certain cross-reacting antigen in Lu65. Overexpression of EGF-R was observed in only one case. Nine cases (20.9%) showing tubular and cribriform patterns overexpressed the erbB-2 product, but the signals were mainly localized in the cytoplasm as a granular appearance. Eighteen cases (41.9%) with slight cellular atypia showed an overexpression of the c-myc product. The immunolocalization of the c-myc product was at the nuclei in most cases, or both the nuclei and the cytoplasm in some cases. None of the ACC expressed the N-myc product. It is speculated that the multiple oncogene expressions might be partly related to the acquirement of the differentiated or malignant phenotype in the ACC.
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PMID:[Expressions of oncogene products in adenoid cystic carcinomas of salivary glands: immunohistochemical study]. 166 2

Drawing upon the comprehensive population-based Northern Alberta Breast Cancer Registry containing 704 patients with histologically negative axillary lymph nodes who have been followed for 5-16 years, we have undertaken a retrospective case-control study to evaluate the utility of genomic amplification of specific protooncogenes [c-erbB-2 (nee HER-2/neu), c-erbA, c-myc, int-2, and hst-1] as predictive indicators of clinical outcome in node-negative disease. To this end, 115 women with node-negative breast cancer who had recurred at any time up to 16 years posttreatment (cases) were matched pairwise for appropriate clinicopathological variables (size of primary tumor, menopausal state, estrogen receptor status, anniversary year of treatment, and patient age) with a second group of 115 women (controls) selected from a cohort of 502 node-negative patients who had not relapsed during long-term follow-up. Tumor DNA extracted from archival formalin-fixed, paraffin-embedded tissue blocks were analyzed for protooncogene copy number by slot-blot hybridization. Taking a gene copy number of 3 as the cutoff, 27 of the 230 tumor samples examined contained from 3- to 22-fold elevation in c-erbB-2 genomic equivalents. Twenty-one of the 27 tumors amplified for c-erbB-2 were derived from cases and 6 from controls, signifying that 18% of the node-negative patients who had relapsed harbored excessive copies of the protooncogene in their malignant tissue compared to only 5% for the patients who had remained in remission. Accordingly, the occurrence of amplification of c-erbB-2 proved to be a statistically significant predictor of poor prognosis, especially disease-free interval (P = 0.006). Moreover, this genetic alteration appeared to be independent of and to have greater predictive power than most commonly used prognostic factors. Our findings also indicated that as a clinical test, measurement of c-erbB-2 amplification suffers from low sensitivity; however, when greater than 6 gene copies are present, the test has a positive predictive value for recurrence of 70%. Concurrent analysis of tumor DNA blots with probes for the other four protooncogenes examined revealed that their amplification, which others have reported to arise often, especially in node-positive disease, was seldom found even in our high-risk case group (2-3%). In short, our data strongly suggest that amplification of c-erbB-2 may contribute to the pathogenesis of some forms of node-negative breast cancer and thus may serve as a useful genetic marker to identify a subset of high-risk patients.
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PMID:Correlation between c-erbB-2 amplification and risk of recurrent disease in node-negative breast cancer. 167 Jul 62

Amplification or overexpression or both of either the c-myc or the human neu (C-erbB-2) gene are common events in many primary human tumors. Coamplification or overexpression or both of both genes have been reported in some breast cancers. The possibility of cooperation between the c-myc and the normal rat neu (c-neu) genes in transforming cells was examined. Surprisingly, the expression of c-myc in B104-1-1 cells, and activated rat neu oncogene (neu*)-transformed NIH 3T3 line, resulted in morphologic reversion. This reversion was found to be a consequence of a transcription-repressive action of c-myc on the neu gene via a 140-bp fragment on the neu gene promoter. The effective concentration of a positive factor(s) interacting with this fragment seemed to be lowered by the expression of c-myc. Our findings lend support to arguments concerning the long-suspected function of c-myc as a transcriptional modulator. They also imply that an oncogene such as c-myc, or possibly the rapidly explored class that encodes transcription factors, under certain conditions may act to reverse a transformed phenotype that is induced by another oncogene instead of contributing positively towards the transformation process. Therefore, the activity of an oncogene may depend on the environment in which it is expressed. In addition, we may have identified the neu gene as a cellular target gene of negative regulation by c-myc.
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PMID:c-myc reverses neu-induced transformed morphology by transcriptional repression. 167 Aug 96

Abnormally expressed oncogenes are implicated in neoplastic transformation. We have investigated a series of endocrine tumours using immunocytochemistry as a first screening tool to detect oncogene expression. Paraffin sections of 44 pulmonary small cell carcinomas, 15 pulmonary atypical carcinoids, 12 bronchial carcinoids, 28 medullary thyroid carcinomas, 27 phaeochromocytomas, and 17 insulinomas were immunostained with antibodies to c-erbB-2, c-myc, L-myc, and N-myc. Diffuse immunoreactivity was detectable for c-erbB-2 in 8 out of 44 (18 per cent) pulmonary small cell carcinomas, 3 out of 15 (20 per cent) pulmonary atypical carcinoids, and 6 out of 27 (22 per cent) phaeochromocytomas; for c-myc in 18 out of 44 (41 per cent) pulmonary small cell carcinomas and 5 out of 15 (33 per cent) pulmonary atypical carcinoids; for N-myc in 6 out of 28 (21 per cent) medullary thyroid carcinomas; and for L-myc in 4 out of 27 (15 per cent) phaeochromocytomas. There was considerable intratumoral and intertumoral heterogeneity and, in each tumour group, no relationship was found between tumour pattern, mitotic index, and oncoprotein immunoreactivity. These results suggest that oncogene products are present in a proportion of endocrine tumours, and that specific oncoproteins seem to be related to tumour type but not to other histopathological findings. Thus, oncoprotein detection may be a useful tool for identifying subsets of endocrine tumours that are not otherwise recognizable morphologically.
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PMID:Oncoprotein immunoreactivity in human endocrine tumours. 167 55

Amplification of the c-erbB-2 protooncogene has been associated with a poor prognosis in human breast and ovarian cancers. Our study was undertaken to examine whether amplification, rearrangement, or overexpression of c-erbB-2 and other protooncogenes was frequently observed in epithelial ovarian cancers. c-erbB-2 was expressed in 87% of 22 ovarian cancers analyzed, but expression was significantly increased in only one of the 22 tumor specimens. In this case elevated c-erbB-2 expression was associated with dramatic amplification of the gene. In another tumor a 3.8 kb EcoRI fragment was found, in addition to the usual 4.4 and 6.0 kb fragments; this is consistent with a possible gene rearrangement or a restriction fragment length polymorphism. To place these results in perspective, expression of several other protooncogenes has been examined in ovarian carcinomas. The c-fos, c-myc, n-myc, c-fms, and c-Ha-ras protooncogenes were expressed in different fractions of tumors, but expression of l-myc, c-erbB, c-myb, c-sis, and c-mos was not detectable. Aside from c-erbB-2, neither amplification nor rearrangement was observed among the other protooncogenes studied. Expression of c-erbB-2, c-fms, c-myc, n-myc, c-fos, and c-Ha-ras deserves further evaluation as a prognostic factor in ovarian cancer.
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PMID:Expression and amplification of the HER-2/neu (c-erbB-2) protooncogene in epithelial ovarian tumors and cell lines. 167 63

Thirty specimens of human endometrial carcinoma (n = 23) and cervical adenocarcinoma (n = 7) have been analyzed for c-myc, epidermal growth factor receptor (EGFR) and c-erbB-2 by immunohistochemistry. In endometrial carcinomas, expression of c-myc was observed in all cases, EGFR in 21 of 23 cases (91.3%) and c-erbB-2 in 7 of 23 cases (30.4%). In cervical adenocarcinomas, expression of c-myc was seen in 5 of 7 cases (71.6%), EGFR in all cases and c-erbB-2 in 2 of 7 cases (28.6%). c-myc immunoactivity was observed as nuclear or cytoplasmic stain or both, EGFR as membrane and cytoplasmic stain, c-erbB-2 as membrane stain. There was no relationship between expression of these three oncogenes and clinical prognostic factors in the present study.
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PMID:Expression of c-myc, epidermal growth factor receptor and c-erbB-2 in human endometrial carcinoma and cervical adenocarcinoma. 168 93


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