UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor DNA samples from 387 breast carcinomas have been investigated for amplification of BEK and FLG genes, both of which have been shown to code for cell surface receptors to FGFs. BEK and FLG were found amplified in 11.5 and 12.7% of breast tumors respectively. Statistical analysis, performed on the subset of 297 primary cancers without presurgical therapy, showed for BEK a trend of preferential amplification in patients above 50 years (P = 0.055), whereas amplification of FLG could significantly be correlated with nodal involvement (P = 0.032) and seemed prevalent in steroid hormones receptor positive tumors. Since the same tumors were previously analysed for the amplification of MYC, ERBB2 and HST/INT2/BCL1 possible associations with BEK and FLG amplifications were looked for. BEK was found significantly correlated with MYC and FLG with HST/INT2/BLC1. The amplification of these two FGF receptor genes may therefore represent additional steps in the molecular phenotyping of breast cancer.
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PMID:BEK and FLG, two receptors to members of the FGF family, are amplified in subsets of human breast cancers. 185 51

Based on the high incidence of loss of heterozygosity for loci on chromosome 17p in the vicinity of the p53 locus in human breast tumors, we investigated the frequency and effects of mutations in the p53 tumor suppressor gene in mammary neoplasia. We examined the p53 gene in 20 breast cancer cell lines and 59 primary breast tumors. Northern blot analysis, immunoprecipitation, and nucleotide sequencing analysis revealed aberrant mRNA expression, over-expression of protein, and point mutations in the p53 gene in 50% of the cell lines tested. A multiplex PCR assay was developed to search for deletions in the p53 genomic locus. Multiplex PCR of genomic DNA showed that up to 36% of primary tumors contained aberrations in the p53 locus. Mutations in exons 5-9 of the p53 gene were found in 10 out of 59 (17%) of the primary tumors studies by single-stranded conformation polymorphism analysis. We conclude that, compared to amplification of HER2/NEU, MYC, or INT2 oncogene loci, p53 gene mutations and deletions are the most frequently observed genetic change in breast cancer related to a single gene. Correlated to disease status, p53 gene mutations could prove to be a valuable marker for diagnosis and/or prognosis of breast neoplasia.
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PMID:Mutations in p53 as potential molecular markers for human breast cancer. 196 33

Cytogenetic studies on fresh human breast cancers revealed that homogeneously staining regions (HSRs), which are assumed to represent DNA amplification, are observed in almost half of the cases. To search for a possible relationship between HSRs and proto-oncogene amplification, 16 proto-oncogenes, including ERBB2, were studied by Southern blot analysis in four tumors with two or three HSRs, and in three tumors without HSRs. Only four proto-oncogenes were found to be amplified in at least one tumor each: HST and INT2 (x3), MYC (x2-3), and FES (x greater than 10). The large sizes of the HSRs, which each corresponded to several percent of the haploid genome, were hardly compatible with the low rate of amplification, except for FES and then only if a large adjacent segment was co-amplified. This incomplete correlation was demonstrated by in situ hybridization, using biotinylated probes, which showed fluorescent spots on only one HSR for FES in one tumor and for INT2 in another one. Our results indicate that most of the large amplifications corresponding to HSRs do not involve the proto-oncogenes usually studied in breast cancer. The large amplification of FES, detected in one tumor, may be coincidental.
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PMID:Proto-oncogene amplification and homogeneously staining regions in human breast carcinomas. 217 39

The role of oncogenes in breast tumorigenesis is unclear. Alterations and/or amplification of several oncogene sequences have been observed in primary human breast tumors, in breast tumor cell lines, and in mammary tumors in model systems. In principle, such alterations could be sites of primary lesions for human breast cancer, causes of tumor progression or metastasis, or simply secondary lesions of highly aberrant tumor genomes. The present study tested genetic linkage of breast cancer susceptibility to nine oncogenes in 12 extended families including 87 affected individuals. Lod scores for close linkage of each candidate sequence to breast cancer were -19.6 for HRAS, -12.3 for KRAS2, -1.0 for NRAS, -6.0 for MYC, -6.1 for MYB, -8.2 for ERBA2, -7.9 for INT2, and -5.1 for RAF1. Regions of chromosome 11p associated with tumor homozygosity and the region of 3p carrying the gene for Von Hippel-Lindau disease could also be excluded from linkage to human breast cancer. The 5-kb allele of the MOS oncogene, previously proposed to be associated with breast cancer, was absent in these families, suggesting that polymorphism at this locus is not associated with inherited susceptibility. These results strongly suggest that oncogenes are not the sites of primary alterations leading to breast cancer. On the other hand, alterations in one or more of these sequences may be associated with tumor progression.
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PMID:Oncogenes and human breast cancer. 256 34

Breast cancer can relapse both locally and at distant metastatic sites. The mechanism of local recurrence is unknown, but seems to be due not only to the number of residual cancer cells (inadequate irradiation or surgery), but also to their genetically determined malignant potential. To identify genetic alterations associated with local recurrence risk in breast carcinoma, we analyzed 28 local recurrences and 173 primary breast tumors for the ten most frequently altered genetic regions in breast carcinomas, i.e., loss of heterozygosity on chromosomal arms 1p, 3p, 7q, 11p, 17p, 17q, and 18q, and amplification of the MYC and ERBB2 protooncogenes and of genes in 11q13. Only INT2/FGF3 and CCNDI, located in 11q13, were more frequently amplified in local recurrences than in primary tumors (39% vs. 17%; P < 0.01). Moreover, recurrence-free survival was shorter when the 11q13 region was amplified. These results suggest that one or more genes located in 11q13 play an important role in local relapses of breast cancer.
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PMID:11q13 amplification in local recurrence of human primary breast cancer. 753 85

The AKT2 gene is one of the human homologues of v-akt, the transduced oncogene of the AKT8 virus, which induces lymphomas in mice. In previous studies, AKT2, which codes for a serine-threonine protein kinase, was shown to be amplified and overexpressed in some human ovarian carcinoma cell lines and amplified in primary tumors of the ovary. To confirm and extend these findings, we conducted a large-scale, multicenter study of AKT2 alterations in ovarian and breast cancer. Southern-blot analysis demonstrated AKT2 amplification in 16 of 132 (12.1%) ovarian carcinomas and in 3 of 106 (2.8%) breast carcinomas. No AKT2 alteration was detected in 24 benign or borderline tumors. Northern-blot analysis revealed overexpression of AKT2 in 3 of 25 fresh ovarian carcinomas which were negative for AKT2 amplification. The difference in the incidence of AKT2 alterations in ovarian and breast cancer suggests a specific role for this gene in ovarian oncogenesis. No significant association was found between AKT2 amplification and amplification of the proto-oncogenes MYC and ERBB2, suggesting that amplification of AKT2 defines an independent subset of breast and ovarian cancers. Ovarian cancer patients with AKT2 alterations appear to have a poor prognosis. Amplification of AKT2 was especially frequent in undifferentiated tumors (4 of 8, p = 0.019), suggesting that AKT2 alterations may be associated with tumor aggressiveness.
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PMID:Molecular alterations of the AKT2 oncogene in ovarian and breast carcinomas. 765 93

Transcripts coding for transcription factors (RB, P53, FOS, MYC, MYB, ERBA, REL), growth factors (FGF1, FGF2, INT2, TGFA, TGFB, PDGF, IGF1, IGF2), interleukins, (IL1, IL2, IL3, IL4, IL6, TNF), growth-factor receptors or cytosolic protein kinases (RAF, PIM, FES, MET, SRC, ROS, TRK, KIT, CSFR, IGFR, PDGFR, EGFR, NEU) were quantified in cultured human mammary fibroblasts from normal tissues, benign tumours, carcinomas and post-radiation fibrosis lesions by slot-blot autoradiography and image analysis. The effects of a differentiating agent (cholera toxin) and of a tumour promoter (12-O-tetradecanoyl-phorbol-13-acetate) were also examined. The drugs modulated the levels of the anti-oncogene transcripts (RB, P53) and of ERBA, REL, RAF, MET, ROS, TRK, CSFR, EGFR, NEU, FGF1, INT2, IGF1, IL1, IL2, IL4 and IL6. Apart from this variation, there were multiple differences in gene expression among normal and pathological cells (concerning all but P53, TGFB and interleukin transcripts) and between sub-types defined by the presence of alpha-sm-actin (myofibroblasts) or EDB-fibronectin (RAF, ROS, FES, KIT, IGFR, NEU, INT2, TGFB, PDGF, IGFs, ILs). It appears, therefore, that mammary stroma progress irreversibly along with the epithelium during tumoral development, and that breast cancer is not only a multi-gene but also a multi-tissue phenotype.
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PMID:Quantitative variation of proto-oncogene and cytokine gene expression in isolated breast fibroblasts. 776 44

Quantitative imbalance in chromosomal material relative to the normal diploid situation is the most conspicuous genetic change in breast tumors, affecting virtually all chromosomes in varying frequencies. This imbalance is reflected by deviant DNA stemlines observed in DNA flow cytometry analysis, by numerical chromosome abnormalities in karyotype analysis and by loss of heterozygosity in DNA polymorphism studies. Gene amplification might be caused by the same genetic mechanisms that cause these chromosomal abnormalities [134]. The number of known genes for which there is now good evidence for their role in the development of breast cancer is still limited, and basically restricted to TP53 and ERBB2. Clearly, the estrogen receptor, not discussed here, can be conjectured to be of importance in breast cancer development, yet the significance of the reported sequence variants [157] for hormone-independent growth is presently undetermined [158]. For many others, such as MYC, CCND1, EMS1, EGF, RB1, NME, DCC and prohibitin, the evidence is still largely circumstantial, or obtained only by in vitro studies on breast cancer cell lines. In many cases of chromosomal imbalance and certainly those affecting whole chromosomes or chromosome arms, it is unclear what their effect on tumor growth will be, because multiple potential candidate genes are located in the affected region. In addition, it is obvious that multiple chromosomes are affected simultaneously in a single tumor, but that the total set of chromosome changes varies in different tumors. This intra- and intertumor heterogeneity of chromosome involvement suggests that an unknown number of the observed abnormalities are not important for tumor development, but merely result from genetic instability. On the other hand, there is accumulating evidence, particularly from flow cytometry and allelotype studies reviewed here, to suggest that the genetic evolution associated with tumor development and progression does reach a stage of equilibrium despite the presence of extensive tumor heterogeneity. The number of genetic events found per tumor raises the question whether each event of heterozygosity loss represents the second step in the inactivation of a tumor suppressor gene. Also, LOH observed with polymorphic markers can sometimes be interpreted as allelic copy number gain instead of loss. Possibly, some of these allelic imbalances contribute to the tumorigenic process simply because they create a dosage effect in certain gene products [2]. This supposes that the sole presence of allelic imbalance at certain chromosomes is sufficient to provide selective growth advantage in certain cases.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Somatic genetic changes in human breast cancer. 781 70

To investigate the possibility of collaboration between telomeric deletion on the short arm of chromosome 1 and genetic amplification similar to that described in human neuroblastoma, 122 human primary breast tumors were examined by restriction fragment length polymorphism analysis for loss of heterozygosity on 1p32-pter and for the three most frequently amplified genetic regions in breast carcinomas (MYC and ERBB2 protooncogenes and the chromosomal region 11q13). Allelic losses at one or more loci on the telomeric part of the short arm of chromosome 1 was observed in 57 (47%) of 122 informative tumors. MYC, ERBB2, and the 11q13 region were amplified in 23, 20, and 21% of breast tumors, respectively. A correlation was found between loss of heterozygosity on chromosome 1p32-pter and amplification of the MYC (formerly c-myc) protooncogene (P = 0.003), suggesting that these two genetic events may collaborate during tumor progression in human breast cancer. These results, together with those obtained in human neuroblastoma, suggest that the distal part of the short arm of chromosome 1 harbors an unidentified tumor suppressor gene(s), whose inactivation may be involved in MYC family gene amplification (an example of genetic instability) in tumors of various cellular origins.
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PMID:A tumor suppressor gene on chromosome 1p32-pter controls the amplification of MYC family genes in breast cancer. 791 73

MYC and ERBB2 levels were measured in 38 benign breast diseases using a semiquantitative in situ hybridization technique. Mean levels of MYC and ERBB2 gene expression in benign tissues were similar to those measured in 15 breast cancers with no amplification at the loci concerned. Interestingly, MYC but not ERBB2 RNA levels were increased (t-test, P = 0.03) in benign mastopathies of patients with a first-degree (mother/sister) family history (FH) of breast cancer. Among patients without a first-degree FH, MYC RNA levels were significantly higher (t-test, P = 0.02) during the follicular (preovulatory) than the luteal (post-ovulatory) phase and also significantly higher than levels observed in patients with no menstrual cycle (peri- or postmenopausal) (P = 0.004), indicating an in vivo hormonal regulation of MYC. After exclusion of the first-degree FH patients a higher MYC expression was detected in atypia than in other histological types at the follicular but not at the luteal phase, suggesting an increased sensitivity of these high-risk lesions to estrogens. We propose that in addition to a family history and proliferative atypia, elevated MYC RNA levels during the post-ovulatory phase could potentially be used as a marker of the risk of developing breast cancer. The increase in MYC RNA in high-risk breast diseases also suggests that MYC deregulation might be involved in the early stages of mammary carcinogenesis.
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PMID:Potential value of increased MYC but not ERBB2 RNA levels as a marker of high-risk mastopathies. 845 47

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