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Query: UMLS:C0006142 (breast cancer)
 160,383 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

Fifty-nine primary breast carcinomas and 11 metastases were examined to identify genetic alterations in the tumour suppressor gene regions 3p, 11p, 13q, 17p, and 17q. Loss of heterozygosity (LOH) was frequently observed on chromosome arms 17p (p144D6 lost in 75%, pYNZ22.1 in 55%, and TP53 in 48% of the primary tumours), 13q (RBI lost in 40% of the primary tumours), and 17q (pRMU3 lost in 35%, pTHH59 in 29%, and NM23HI in 26% of the primary tumours). Loss of all the markers except p144D6 was observed even more frequently in the metastases. Pairwise comparisons for concordance of allele losses on 17p indicated that there might be two genes on 17p implicated in breast cancer development; the TP53 gene and a gene located close to the p144D6 and pYNZ22.1 markers. LOH of the RBI gene was associated with LOH of pYNZ22.1 and p144D6, but not with LOH of TP53. LOH of RBI and TP53 was associated with occurrence of ductal carcinomas, RBI and p144D6 losses with tumour size, and p144D6 losses with positive node status as well. LOH of TP53 and the three 17q markers NM23HI, pTHH59, and pRMU3 was most frequently observed in tumours from postmenopausal women. p144D6 losses occurred most frequently in progesterone receptor-negative tumours, whereas pTHH59 losses occurred most frequently in oestrogen receptor-negative tumours. LOH of the investigated loci was not associated with ERBB2 protooncogene amplification, with positive family history of breast cancer, or with survival.
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PMID:Genetic alterations of the tumour suppressor gene regions 3p, 11p, 13q, 17p, and 17q in human breast carcinomas. 137 10

Overexpression of the p53 protein, resulting from gene mutations that increase protein stability, has been detected in greater than 25% of primary human breast cancers. In addition, approximately 10% of breast cancer patients have circulating antibodies to the p53 protein. In this study, the anti-p53 humoral response is correlated with the presence and type of mutant p53 protein expressed in the tumor. In a series of 60 breast cancer patients, 0 of 30 tumors with normal, low-level p53 expression induced anti-p53 antibodies, whereas 7 (23%) of 30 tumors with p53 overexpression elicited a specific anti-p53 antibody response. These 7 patients had anti-p53 antibodies that recognized wild-type p53 and a variety of mutant p53 proteins. A comparison of p53 mutations revealed that antibody-negative tumors had mutations exclusively in exons 7 and 8, whereas antibody-positive tumors had mutations primarily in exons 5 and 6. Moreover, all antibody-eliciting tumors contained complexes between p53 and a 70-kDa heat shock protein, whereas none of the antibody-negative tumors contained this complex. This study implicates a 70-kDa heat shock protein in the antigenic presentation of p53.
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PMID:Immune response to p53 is dependent upon p53/HSP70 complexes in breast cancers. 137

We have identified and analyzed 41 mutations in p53 in sporadic breast tumors from 136 unselected breast cancer patients and estimate that approximately 40% of such tumors contain p53 mutations. The frequency of G-T transversions and the incidence of guanosine mutations in the nontranscribed strand of the p53 gene were found to be higher than expected, and we suggest, therefore, that exogenous carcinogens have an etiological role in sporadic breast cancers. Mutations were recorded in 44 codons of the p53 gene, with no obvious mutational hot-spots, although mutations at codons 175, 194, 273, and 280 accounted for 25% of the changes. One germ-line mutation was found in 136 patients and so we conclude that constitutional mutation of p53 may be an uncommon etiological factor in breast cancer.
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PMID:p53 mutations in breast cancer. 139 33

The p53 expression in various skin tumors was immunohistologically evaluated using two mouse monoclonal anti-p53 antibodies, PAb421 and PAb1801. The p53 expression was not detected in the normal epidermal cells. Nuclear staining suggested that the p53 expression was observed in 10 of 26 squamous cell carcinomas (SCCs) from 24 patients, in one undifferentiated carcinoma, one proliferating trichilemmal cyst, one malignant proliferating trichilemmal tumor and in one metastatic carcinoma of breast cancer. None off four cases of Bowen's disease (SCC in situ) showed nuclear staining. In the SCCs, five of 20 primary lesions, three of four recurrent lesions and both of two metastatic lesions had positive nuclei. There was one case of SCC in which a primary lesion was negative but a recurrent lesion was positive. Thus, p53 expression was more frequently observed in SCCs at more clinically advanced stages. This may suggest that p53 has some relevance to progression of SCC. Nuclear staining was not detected in any of the following cases: two cases of seborrheic keratosis, one eccrine poroma, one keratoacanthoma, 11 basal cell epitheliomas, two mammary Paget's disease, three genital Paget's disease, one sebaceous carcinoma, four malignant melanomas, six lymphomas, two leukemia cutis and two angiosarcomas.
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PMID:Immunohistological analysis of P53 expression in human skin tumors. 830 55

Alteration of the p53 gene is the most frequent genetic feature of human cancer and leads to overexpression of the altered protein in the tumor cell nucleus. Two diagnostic procedures are currently available to assess p53 mutations: (a) molecular analysis of the gene sequence; and (b) immunohistochemical analysis of p53 protein accumulation. We now report a third approach, serological analysis. Fifteen % of primary breast cancer patients were found to have circulating antibodies to p53 protein by immunoprecipitation or immunoblotting. We have found a close correlation between the presence of such antibodies and bad prognosis such as high histological grade and the absence of hormone receptors. Furthermore, we found that the B-cell response to p53 protein is induced by two immunodominant regions located at the carboxy and amino termini of the protein, outside the central mutational hot spot region. These findings suggest that serological analysis, combined with molecular and histochemical methods, may be suitable for assessing the state of the p53 gene in cancer patients.
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PMID:The immune response to p53 in breast cancer patients is directed against immunodominant epitopes unrelated to the mutational hot spot. 142 85

Inactivation of tumour suppressor genes may be an important aetiological factor in many human cancers including breast. In a study of 197 breast cancer patients, tumour tissue was snap-frozen at the time of surgery and immunohistochemical labelling for p53 protein and retinoblastoma (Rb) gene product carried out using an indirect immunohistochemical technique. Tumours were scored by two independent observers for the intensity of nuclear staining for each antibody. Expression of p53 protein showed a significant association with a shorter time to relapse (P = 0.03) and death (P = 0.02) (log rank test). p53 expression did not correlate with nodal status but showed a significant association with high tumour grade (P = 0.001). Rb gene expression showed no relationship to relapse or survival but loss of expression showed a significant correlation with positive lymph node status. The manner by which these proteins might act to determine tumour behaviour remains to be established.
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PMID:Retinoblastoma and p53 gene expression related to relapse and survival in human breast cancer: an immunohistochemical study. 145 67

We have developed new methodology for quantifying antibodies to the p53 tumor suppressor gene product in human serum. The assay involves solid-phase immobilization of a monoclonal anti-p53-specific antibody that is then reacted with a tumor cell line lysate containing mutant p53. The immunopurified p53 antigen acts as an immunosorbent for the serum p53 antibodies that are then detected by reaction with a goat anti-human immunoglobulin G antibody labeled with alkaline phosphatase (ALP). ALP activity is then measured with enzymatically amplified time-resolved fluorometry. The developed assay has many advantages over the radioactively labeled techniques previously used. In a preliminary clinical study involving 790 patient sera, we have identified 16 positive samples (2%). Highest titers were observed in a patient with melanoma and two breast cancer patients. Further studies are needed to improve the sensitivity of this test and to evaluate its possible use for cancer diagnosis, prognosis or monitoring of therapy.
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PMID:Antibodies to the p53 tumor suppressor gene product quantified in cancer patient serum with a time-resolved immunofluorometric technique. 147 69

Familial clustering of breast cancer has been recognised for over a century but until recently a genetic basis has been suspected rather than proven. Epidemiological studies have tended to support the view that an autosomal dominant gene, with high but incomplete penetrance, accounts for most breast cancer families. However, it is likely that several different predisposing genes are present within most populations. Difficulties arise in a conventional 'linkage mapping' approach to identifying these genes, first, because it is not clear that genetically homogeneous groups of families can be recognised on the basis, for example, of mean age of onset or pattern of other cancers within the kindred and, second, because breast cancer is so common (affecting almost one in twelve women) that large affected kindreds are likely to include an admixture of sporadic (non-genetic) cases. Cytogenetic and 'Loss of Heterozygosity' (LOH) studies in sporadic breast cancers have pointed to several candidate loci for breast cancer genes but there is no clear consensus from these two approaches that might direct attention to any prime target region. Recent reports of tight linkage between familial breast cancer (early onset) and breast/ovarian cancer (regardless of mean age of onset) and a locus on chromosome 17q21 defined by the anonymous probe CMM86, have not been confirmed in detail but have led to the identification of a locus some 15 Mb centromeric of CMM86 that gives a high positive lod at very low recombination fraction in fifteen Edinburgh breast and breast/ovarian cancer families. The disease in the majority of such families therefore appears to be attributable to a mutant gene at 17q12-21. A much smaller proportion of familial breast cancer is accounted for by mutations in the p53 gene (17p13). Not all such families fulfil the criteria for Li-Fraumeni syndrome and not all of the inherited mutations lie within exon 7 of p53. Counselling of members of breast cancer families becomes more exacting as these genetic lesions are identified. It is essential to extend the collection of data and tissue (blood or fixed pathology material) as widely as possible to confirm linkage to a specific locus within each individual kindred, to define the precise mutation and to establish the cancer phenotype and its penetrance. In the course of these studies a substantial population of women at high risk of breast (and other) cancer will be identified. Resources should be directed to this population so that optimum procedures for screening and prevention can be developed.
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PMID:Familial breast cancer. 151 Nov 56

Breast cancer is the most common cancer among American women. Because metastatic breast cancer is an incurable disease, efforts to decrease breast cancer mortality have focused on early detection and improved treatment. Identification and analysis of a specific genetic susceptibility could permit detection of susceptible women and greatly increase the understanding of the initial step that eventually leads to cancer. Because susceptibility loci have been recognized as sites that often are altered during tumor progression, the identification and cloning of such loci could be important in developing cancer therapies. In this article, the progress being made in segregation analysis, linkage analysis, and cloning of breast cancer susceptibility loci is reviewed. The evidence for genetic inheritance is most consistent with dominant inheritance for at least three major susceptibility loci. Proliferative breast disease has been hypothesized to be an inherited lesion in breast cancer kindreds with both premenopausal and postmenopausal probands. Currently, there are many genetic markers for mapping the human genome. Technologic advances have progressed from restriction fragment length polymorphisms to highly polymorphic markers. Using this technology, breast cancer susceptibility in some kindreds with an early onset has been shown to be linked to chromosome 17q. Gene isolation eventually will follow with an increased understanding of the percentage of breast cancer cases that are a result of this genetic locus. Li-Fraumeni syndrome, which often is expressed as breast cancer, is due to mutations in the p53 gene. Characterization of the syndrome and its relationship to the altered gene should proceed rapidly. There is also a group of families exhibiting a genetic susceptibility that is not due to either of these loci. Together, these findings indicate that there are at least three separate major loci segregating for breast cancer susceptibility. With the current initiative to map and sequence the entire human genome and the advances that recently have been reported, a detailed molecular understanding of breast cancer predisposition can be envisaged.
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PMID:Genetic predisposition to breast cancer. 151 30


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