Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human breast epithelial cell line, MCF-10A, derived from tissue from a woman undergoing a cutaneous mastectomy for fibrocystic breast disease, is negative for estrogen receptor expression, has undergone minimal genetic changes, retains many of the characteristics of normal breast epithelium and fails to exhibit growth in nude mice. When transfected with a functional copy of the estrogen receptor, both ER and MDM2 expression are negatively regulated by the presence of increasing concentrations of estradiol, as previously reported. We obtained the MCF-10A cell line from the American Type Culture Collection and confirmed that it was negative for ER expression. After approximately 20 passages under differing growth conditions, one subline was determined to be positive for ER expression. Growth of this ER-positive subline in phenol red-free media supplemented with charcoal-dextran stripped serum in the presence of nanomolar concentrations of estradiol failed to modulate ER and MDM2 expression, and induced expression of both pS2 and cathepsin D. Simultaneously with these observations, we observed that this subline, unlike the parent MCF-10A line, overexpressed P53 protein with a nuclear localization. Intermediate levels of the P53-inducible protein p21 WAF1/Cip1 were also detected in the ER-positive subline whereas levels of this protein in the parent subline were barely detectable, as measured by immunohistochemical methods. We conclude from these studies that ER expression and P53 alteration may constitute early steps in progression of malignant potential for breast cancer development.
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PMID:Spontaneous conversion to estrogen receptor expression by the human breast epithelial cell line, MCF-10A. 1020 82

HMT-3522 is a spontaneously immortalized cell line derived from a fibrocystic breast lesion. After continuous accumulation of genetic changes, the cell line was transformed from a nontumorigenic to a malignant phenotype. One of the earliest genetic aberrations is a missense mutation of codon 179 (His179Asn) in the tumor suppressor gene TP53 leading to outgrowth of a cell type expressing only the mutant form of TP53. In this report, we extend earlier investigations to reveal the genetic background for the evolution from homozygous wild type to hemizygous mutated cells. The status of the TP53 alleles was followed at different stages by fluorescence in situ hybridization (FISH) and allele-specific PCR (ASPCR) on total DNA, as well as flow-sorted chromosomes--taking advantage of a size difference between the two homologues of chromosome 17 that harbor TP53 on 17p. This further allowed us to determine on which of the two chromosomes the mutated allele was located. The results presented here show that the cells have undergone an evolution from homozygous wild type for TP53 to heterozygous (His179Asn mutation in one allele), and finally to a hemizygous mutated state (deletion of the remaining wild-type allele). The finding of a transient period in which heterozygous cells dominate the population before the eventual outgrowth of hemizygous cells strongly indicates that the His179Asn mutation results in a tp53 protein with a dominant negative effect that does not totally abrogate the function of wild type TP53 in vitro.
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PMID:Complete loss of wild-type TP53 in a nontransformed human epithelial cell line is preceded by a phase during which a heterozygous TP53 mutant effectively outgrows the homozygous wild-type cells. 1061 28

We report the case of a 39 years old woman, with bilateral fibrocystic breast disease and several surgeries for this cause, including bilateral mammary implants. Nineteen months after the implants an angiosarcoma of the left breast was diagnosed. In the specimen from radical mastectomy infiltration of the adipose tissue was found but no metastases to the axillary lymph node resected. Prognostic factors were investigated in surgical specimen and immunophenotypic characterization was made, considering Ki-67 and p53 expression. The patient finished chemotherapic treatment and is well, without neoplastic disease relapse, 16 months after diagnosis. We comment the possible relation between silicona's implants and angiosarcoma's genesis, association not reported before in the literature. The adverse effects of silicone implants and angiosarcoma histogenesis were reviewed.
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PMID:[Breast angiosarcoma in a patient with multiple surgical procedures and breast implant. Report of a case]. 1201 51

Background: Fibrocystic changes are associated with an increased risk of breast cancer. Genetic alterations have been found in fibrocystic changes with or without epithelial changes, suggesting that critical oncogenic events are occurring at an early stage. Methods: We investigated a unique collective of 17 breast cancer patients who, prior to the diagnosis of invasive breast cancer, underwent open surgical biopsy showing fibrocystic changes of the breast. The time span between biopsy for fibrocystic changes and invasive carcinoma ranged from 1 to 11 years (average 5.3 years). Ten (58.8%) of the patients had an ipsilateral invasive carcinoma, and 7 (41.2%) of the patients developed an invasive carcinoma of the contralateral breast. Massive parallel sequencing targeting genes frequently mutated in breast cancer was performed on the fibrocystic breast tissue as well as the ensuing cancer tissue. Results: In 9 cases, somatic mutations were found in the tumor tissue, the most prevalent being PIK3CA mutations (n = 4), followed by TP53 mutations (n = 2). None of these mutations were present in the previously removed mastopathy tissue. In one of the cases, an ERBB3 E928G mutation was present in the mastopathy as well as in the tumor tissue, with the variant allele frequency in the mastopathy being <0.1%. In two patients, we found two mutations (MAP3K1 L380fs and PIK3CA I391M, respectively) present in the mastopathy as well as in the subsequent breast cancer. These two mutations, however, could also be due to fixation artifacts. Conclusion: Since no significant somatic mutations in the fibrocystic breast tissue, and only doubtful shared mutations between benign and associated cancer tissue were detected, it remains unclear why women with fibrocystic breast disease have a statistically significant increased risk of breast cancer. Further analyses, maybe on the level of gene expression, could help to clarify the role of these benign alterations in the development of breast cancer and help to identify women at greater risk of developing subsequent invasive cancer.
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PMID:Genetic Alterations in Benign Breast Biopsies of Subsequent Breast Cancer Patients. 3139 14