Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0007124 (ductal carcinoma in situ)
 3,833 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of p53 protein, oestrogen receptor protein, epidermal growth factor receptor (EGFR) and overexpression of the c-erbB-2 oncoprotein was examined in a series of 149 primary symptomatic breast carcinomas. Expression of p53 was present in 62 of 146 cases (42.5%) of the invasive carcinoma and one of three cases (33.3%) of ductal carcinoma in situ (DCIS) examined. Statistical associations of tumour oestrogen receptor positivity and lack of p53 protein expression, chi 2 = 19.78 (d.f. = 1), P less than 0.001, positive tumour p53 status and poor tumour grade; chi 2 = 14.1 (d.f. = 2), P less than 0.001, EGFR expression chi 2 = 7.07, (d.f. = 1), P less than 0.01 and tumour c-erbB-2 protein overexpression; chi 2 = 4.61 (d.f. = 1), P = 0.032 were identified. Expression of p53 is rare in invasive lobular carcinoma of classical type (8.3% of cases examined) in contrast to other common types of mammary carcinoma. Non-significant trends of p53 protein expression and increased regional tumour recurrence; chi 2 = 3.20 (d.f. = 1), P = 0.074 and also poorer patient survival; chi 2 = 3.76 (d.f. = 1), P = 0.053 were identified. p53 protein expression is a common event in human breast cancer and is present in both DCIS and invasive mammary carcinoma. Abnormal expression of p53 protein is a feature of both in situ and invasive breast carcinoma, implying that the abnormal p53 protein expression may be implicated in the early stages of mammary carcinoma progression.
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PMID:p53 protein expression in human breast carcinoma: relationship to expression of epidermal growth factor receptor, c-erbB-2 protein overexpression, and oestrogen receptor. 135 62

One hundred and five cases of pure ductal carcinoma in situ (DCIS) seen in the Guy's Hospital breast unit between 1975 and 1991 were reviewed. The presence and extent of necrosis and the degree of cytonuclear differentiation were assessed and the expression of p53 protein, cerbB2 protein, progesterone receptor, and a proliferation antigen KiS1, all factors reported to be of prognostic significance in invasive ductal carcinoma, was evaluated using immunohistochemical methods. A strong correlation was seen between the presence and extent of necrosis and the degree of cytonuclear differentiation and between both these morphological criteria and the biological markers as well as between the individual markers. The presence of extensive necrosis was associated with lack of cytonuclear differentiation and both were associated with a high proliferation rate, the presence of cerbB2 and p53 protein, and the absence of progesterone receptors. In cases with little or no necrosis, there was good nuclear differentiation and a strong correlation with the presence of progesterone receptor, absence of cerbB2 and p53 protein, and a low rate of proliferation.
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PMID:Ductal carcinoma in situ: assessment of necrosis and nuclear morphology and their association with biological markers. 756 48

Immunohistochemical analysis of the p53 gene protein and cytometric assessment of nuclear DNA were performed in a series of 51 cases of intraductal breast proliferation. The series included 22 cases of intraductal hyperplasia without atypia, 6 cases of intraductal hyperplasia with atypia, and 23 cases of pure intraductal carcinoma. Expression of p53 protein was detected in one case of intraductal hyperplasia without atypia (4.5 per cent), one case of intraductal hyperplasia with atypia (16.6 per cent) and six cases of intraductal carcinoma (26.0 per cent). No significant correlation was observed between p53 expression and histological subtype of intraductal carcinoma. Aneuploidy was demonstrated in two cases of intraductal hyperplasia with atypia (33.3 per cent) and in 18 cases of intraductal carcinoma (78.2 per cent). All cases of intraductal hyperplasia without atypia were euploid. No significant association was observed between p53 protein expression and ploidy in intraductal hyperplasia. The only case of intraductal hyperplasia without atypia positive for p53 was euploid, whereas the only p53-positive case of intraductal hyperplasia with atypia was aneuploid. Among the intraductal carcinomas, only the aneuploid cases showed positivity for p53, regardless of histological subtype. The results suggest that some of the changes observed in invasive breast carcinoma, such as p53 expression and aneuploidy, are already present in breast intraductal proliferation, especially in areas with atypia and in intraductal carcinoma. The expression of p53 in breast intraductal proliferation may reflect the acquisition of p53 gene mutations in cells unable adequately to repair DNA damage, with genomic instability which would lead to clonal expansion and putative evolution to invasive disease.
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PMID:p53 protein expression and nuclear DNA content in breast intraductal proliferations. 767 86

Despite modern therapy, one third to one half of patients who get breast cancer will eventually die from it. This disconcerting circumstance has focused attention on prevention, and preventing breast cancer will require a much better understanding of the biological abnormalities underlying its development and progression. Many studies into the mechanisms of invasive breast cancer evolution have evaluated presumed precursor lesions (e.g. proliferative disease without atypia, atypical ductal hyperplasia, and ductal carcinoma in-situ) for genetic alterations known to occur in fully developed invasive carcinomas. This approach has shed some light on events which may be important in early malignant transformation, including the observations that overexpression of the c-erbB-2 oncogene and mutations of the p53 tumor suppressor gene are present in significant subsets of DCIS, but not PDWA or ADH. Although this approach is limited by our incomplete knowledge of cancer genetics, there is still a great deal to learn about breast cancer evolution by evaluating cancer-associated genes in potential precursor lesions using established techniques such as immunohistochemistry and in situ hybridization.
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PMID:Immunohistochemical studies of early breast cancer evolution. 781 82

Intraductal papillary growth of mucin producing hypersecreting, columnar cells characterizes a group of rare pancreatic exocrine neoplasms which we propose to call intraductal papillary-mucinous tumors (IPMT). We analysed the histopathology of 26 IPMT in relation to gastro-enteropancreatic marker expression, genetic changes and biology. Four IPMT showing only mild dysplasia were considered to be adenomas. Nine tumours displayed moderate dysplasia and were regarded as borderline. Severe dysplasia-carcinoma in situ changes were found in 13 IPMT which were therefore classified as intraductal carcinomas. Six of these carcinomas were frankly invasive and two of these had lymph node metastases. The invasive component resembled mucinous non-cystic carcinoma in all but one tumour which showed a ductal invasion pattern. Immunohistochemically, an intestinal marker type was found in most carcinomas, while gastric type differentiation prevailed among adenomas or borderline tumours. K-ras mutations (seven at codon 12 and one at codon 13) were found in 31% of IPMT (2 adenomas, 1 borderline, 5 carcinomas). Nuclear p53 overexpression was detected in 31% of IPMT (6 carcinomas and 2 borderline IPMT) and correlated with p53 mutations (one at exon 8 and the other at exon 5) in two carcinomas. p53 abnormalities were unrelated to K-ras mutation. c-erbB-2 overexpression was observed in 65% of IPMT, with various grades of dysplasia. Twenty-two of 24 patients are alive and well after a mean post-operative follow-up of 41 months. Only two patients, both with invasive cancer at the time of surgery, died of tumour disease. It is concluded that pancreatic IPMT encompass neoplasms which, in general, have a favorable prognosis, but are heterogeneous in regard to grade of dysplasia and marker expression. Adenoma, borderline tumour, intraductal carcinoma and invasive carcinoma can be differentiated. p53 changes but not K-ras mutation or c-erbB-2 overexpression are related to the grade of malignancy. Most IPMT differ in histological structure, marker expression and behaviour from ductal adenocarcinoma.
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PMID:Intraductal papillary-mucinous tumours represent a distinct group of pancreatic neoplasms: an investigation of tumour cell differentiation and K-ras, p53 and c-erbB-2 abnormalities in 26 patients. 782 Mar

p53, p185erbB-2, and epidermal growth factor (EGF) receptor are well-characterized biomarkers in invasive adenocarcinoma of the breast and in ductal carcinoma in situ. erbB-2 Protein (p185erbB-2) must be identified clearly on cytoplasmic membranes while cytoplasmic expression is ignored for breast cancers to be classified as overexpressing p185erbB-2. For p53, nuclear staining and the percent positive cells are considered, but rules for "cut-offs" are not defined. Evaluation criteria for biomarkers in prostate cancer are preliminary and the "rules" may not be the same as for breast cancer. Because the initial methods of fixation and tissue processing can change both the pattern and intensity of immunohistochemical identification of specific antigens and localization of receptors may change after the receptor-ligand interactions, we evaluated the effects of fixation both on the immunolocalization and intensity of expression of p53, p185erbB-2, and EGF receptor. We also studied the patterns of p185erbB-2 and p53 expression in a series of breast cancers evaluated concomitantly with a group of prostate cancers. Our results confirm that p53 mutations are common in breast cancer and that there is strong expression of p185erbB-2 on the membranes of a subset of breast cancers. The patterns of staining for both p53 and p185erbB-2 are different in prostate and breast cancers. A much lower proportion of prostate tumors than breast tumors have more than 10% of tumor cells with detectable nuclear p53 protein, but this proportion increases markedly in metastatic tumors or in primary stage D prostate cancer.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evaluation of biomarkers in breast and prostate cancer. 782 98

One hundred five cases of pure ductal carcinoma in situ (DCIS) seen in the Guys Hospital breast unit between 1975 and 1991 were reviewed and reclassified using a modified histologic classification based on cytological features as well as histological architecture. The expression of p53 protein, cerbB2 protein, progesterone receptor, and a proliferation antigen KiS1, all factors reported to be of prognostic significance in invasive ductal carcinoma, was also evaluated using immunohistochemical methods. The mode of presentation of these cases was noted, and its relationship to biological markers and histologic type was also assessed. Good interobserver agreement was achieved by two independent observers using the modified histologic classification. Strong correlation was seen between histologic pattern and biological markers as well as between the individual markers. Poorly differentiated DCIS was associated with a high proliferation rate, the presence of cerbB2 and p53 protein and the absence of progesterone receptors. Well-differentiated DCIS showed the reverse, and the intermediate group showed an intermediate pattern. Paget's disease of the nipple was only seen in association with poorly differentiated DCIS, but no other significant association was noted between mode of presentation and DCIS type.
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PMID:The classification of ductal carcinoma in situ and its association with biological markers. 783 31

The new histologic classification proposed by Holland et al was applied to 127 cases of mammographically-detected ductal carcinoma in situ (DCIS). The relationship between histologic types and tumor cell expression of estrogen and progesterone receptors, p53 protein, c-erbB-2 oncoprotein, and proliferative activity markers was evaluated. There were 38 (30%) well differentiated, 39 (31%) intermediately differentiated and 50 (39%) poorly differentiated DCIS. Immunohistochemistry showed that 81% of the tumors were estrogen-receptor positive and 73% progesterone receptor positive. p53 protein and c-erbB-2 oncoprotein expression was identified in 40% and 57% of the cases, respectively. Growth-fraction determination with the Ki-67 antibody showed that 52% of the tumors had high proliferative activity. A highly significant association was found between the histologic types of DCIS and p53 protein, c-erB-b2 oncoprotein, and proliferative activity marker expression: these biological markers were more frequently overexpressed in less differentiated DCIS. No significant relationship with estrogen or progesterone receptor expression was noted. A strong relationship with the amount of tumor necrosis was also found. The clinical significance of these results should, however, be determined by long-term follow-up studies of patients with DCIS.
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PMID:Mammographically-detected ductal in situ carcinoma of the breast analyzed with a new classification. A study of 127 cases: correlation with estrogen and progesterone receptors, p53 and c-erbB-2 proteins, and proliferative activity. 783 32

Early breast neoplasia may be defined in many ways. Any non-invasive or invasive but nonmetastatic breast cancer qualifies as early neoplasia in the sense that they are non-lethal. Before we can prevent lethal breast cancer, we must gain a better understanding of the biological abnormalities underlying its development and progression. Many studies into the mechanisms of breast cancer evolution have evaluated potential precursor lesions (e.g., proliferative disease without atypia [PDWA], atypical ductal hyperplasia [ADH], and ductal carcinoma in situ [DCIS]) for genetic alterations known to occur in fully developed invasive carcinomas. This approach has shed some light on events which may be important in early malignant transformation, including the observations that overexpression of the c-erbB-2 oncogene and mutations of the p53 tumor suppressor gene are present in significant subsets of DCIS, but not PDWA or ADH. This approach is limited by our incomplete knowledge of cancer genetics. However, there is more to learn by evaluating known cancer-associated genes in potential precursor lesions using established techniques such as immunohistochemistry and in situ hybridization. Until recently, technology could not detect unknown genetic abnormalities in microscopic lesions such as PDWA, ADH, or DCIS. Now, PCR-based techniques have the theoretical ability to detect novel tumor promoter and suppressor genes in clinical samples of these very small lesions. For example, suppressor-type genes may be detected using comprehensive mapping probes to identify loss of heterozygosity in PCR-amplified DNA extracted from a few hundred cells microdissected from either fresh or archival tissue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biomarkers in early breast neoplasia. 800 90

It is clear that breast cancer progression is associated with inactivation of a number of different recessive oncogenes. The most widely evaluated tumor suppressor gene, p53, is mutated in approximately 30-50% of sporadic breast cancers. Mutations usually occur early in malignant progression. Loss of heterozygosity (LOH) studies have identified numerous chromosomal regions where other recessive oncogenes relevant to breast cancer may be located. Each LOH is seen in a varying proportion of breast cancers and may appear either early or late in progression. High-grade ductal carcinoma in situ (DCIS) and invasive carcinoma have similar genetic lesions, showing that aberrations can occur before invasive disease. Direct evidence that the same aberrations can be acquired later in progression comes from a study of multiple metastases from the same patient; other studies found that primary invasive cancers are characterized by marked intratumor heterogeneity for each lesion examined. The model we propose to account for these results hypothesizes that multiple genetic lesions can accomplish each phenotype required for malignancy (i.e., dysregulated proliferation, invasion, angiogenesis, etc.) and that, for a given tumor, at least one aberrant gene for each phenotypic change is stochastically selected. Biological heterogeneity of breast cancer results from the stochastic acquisition of various genetic aberrations. We further propose that the lymphocytic reaction in high-grade DCIS may select for aggressive tumor subpopulations capable of escaping immune surveillance. Another aspect of tumor heterogeneity may be the multiple mechanisms employed by various tumors to escape immune surveillance.
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PMID:Molecular aspects of early stages of breast cancer progression. 800 93


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