UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We analysed 39 prostatic carcinomas for loss of heterozygosity on chromosomal arms 8p, 10q, 16q, 17p and 18q and for mutations in the p53 anti-oncogene. Loss of heterozygosity (LOH) on 8p was detected in one out of 5 informative tumors, LOH on 16q in 3 out of 21 tumors, LOH on 17p in 2 out of 18 tumors, and LOH on 18q in 2 out of 17 tumors. No deletions were observed on 10q in 14 informative tumors. p53 alterations occurred in 3 out of 38 examined tumors, comprising two point mutations and a small deletion. Chromosomal deletions and p53 mutations were confined to locally invasive prostatic carcinomas, suggesting that they are associated with the progression of some prostate cancers rather than with tumor initiation.
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PMID:P53 mutations and loss of heterozygosity on chromosomes 8p, 16q, 17p, and 18q are confined to advanced prostate cancer. 787 19

We developed a Wilms' tumor-cell culture system to investigate the molecular basis of nephrogenesis and oncogenesis. Several distinct fractions of cells were isolated and characterized from the same tumor specimen. The cells exhibited striking differences in morphology, immunocytochemical staining profiles and cytogenetics. One fraction contained cells with features of epithelium; other cell fractions resembled partially differentiated mesenchyme (blastema or stroma). While the Wilms' tumor-suppressor gene WT1 was not altered, loss of heterozygosity (LOH) and an insertion in intron I of the p53 tumor-suppressor gene occurred in the tumor and the cultured cell types. LOH for RB was detected only in the cultured cells. These findings are consistent with a model of tumor initiation in a pluripotent cell that is able to undergo subsequent differentiation along multiple different lines and which mimics normal nephrogenesis.
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PMID:Molecular and cellular heterogeneity of Wilms' tumor. 809 15

Currently, the factors associated with tumor initiation, progression, invasion and metastasis as well as the complex relationship between the genetics of breast cancer are not clearly understood. It is known, however, that the risk of developing breast cancer increases with age, family history of breast cancer, and not bearing a child by age 30. Most breast cancer cases (i.e., greater than 70 percent), however, occur in women who have no identifiable risk factors. The basic methods of treatment (e.g., surgery, chemotherapy and radiation) used today are the same as those used in the 1930s. The current criteria for breast cancer staging include pathologic parameters, such as tumor size and nodal involvement, histologic and cytologic parameters, such as histologic grade, and biologic parameters such as age of the patient, hormone (estrogen and progesterone) receptor status, oncogene activation (e.g., c-myc and HER-2/neu) and tumor suppressor gene inactivation (e.g., p53). Although there is evidence that some of these factors may offer some utility in prognosis, the optimal combination of independent prognostic factors remains elusive. Thus, the need to explore other potential biomarkers is pressing. Laboratory study of breast cancer using conventional and molecular cytogenetics, together with other forms of analysis, will lead to an improved repertoire of biological markers in the future.
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PMID:Laboratory study of breast cancer using conventional and molecular cytogenetics. 890 51

Adducts, formed by carcinogens of tobacco smoke with DNA, can be detected by means of molecular techniques and are used as marker of internal exposure. Carcinogen-DNA adducts produce specific mutations in tumor-suppressor genes (e.g. p53) and oncogenes (e.g. ras), which can be involved in tumor initiation or in later stages of tumor progression (e.g. evolution of an invasive phenotype). Benzo(a)-pyrene, an important carcinogen of tobacco smoke, induces GT transversions, as demonstrated in in vitro systems and animal models. Mutations in the p53- or ras-gene are more common in human tumors of the lung, head and neck, bladder and pancreas in smokers than in non-smokers. Molecular biology of cancer gains increasing significance in clinical practice since 1.) the presence of certain mutations confers an unfavorable prognosis to malignant disease (e.g. ras mutations in lung cancer), 2.) ras and p53 mutations often occur early during tumor development and can thus facilitate diagnosis of malignant disease, and 3.) minimal residual disease can be detected using molecular techniques. After resection of cancer of the head and neck, tumor recurred more frequently in patients with no evidence of residual disease as assessed by pathohistologic criteria than in patients with no evidence of residual disease as evaluated by p53 immunostaining.
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PMID:[Molecular biology of tobacco smoke associated neoplasia]. 901 41

Evolving trends in the management of rectal cancer have focused on organ preservation, improved quality of life, and survival of patients. A significant shift is underway in our thinking about what constitutes the true rectum and defining the "proximal" and "distal" segments of the rectum. Tumor mobility remains a dominant prognostic factor in patient selection and choice of surgery. A clinical staging with tumor location in the rectum provides a logical algorithm for treatment decision making with either chemoradiation therapy or surgery as initial treatment of choice. Current rectal cancer management has largely focused on postoperative adjuvant radiation strategies with improvement reported for T3 and N+ cases. Recent data from Europe suggests that preoperative radiation has a significant advantage over surgery alone or postoperative treatment. This appears to be borne out by institutional studies of high-dose preoperative radiation (>45 Gy) in the United States. Aggressive preoperative combined chemoradiation has also led to significant downstaging of cancer with pathological complete response rates of 20% to 30%. This offers new options for surgical management of residual disease with endocavitary radiation or local excision. The development of new agents Gemcitabine, paclitaxel, and CPT-11 may also prove beneficial. New treatment strategies need to be coordinated with evolving knowledge of the biological behavior of the tumor based on its genetic fingerprints. c-Ki-ras and C-myc mutations have been implicated in tumor initiation and progression. A number of other tumor suppressor genes, APC gene, p53, and DCC have also been implicated in colorectal tumor carcigenesis. The modification of biological behavior by mutations in these genes is currently under study. This may guide new treatment strategies significantly reducing the death rates from rectal cancer and improving functional results of treatment.
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PMID:Critical issues in the evolving management of rectal cancer. 942 68

There is vast evidence in support of the idea that accumulated genetic changes (mutations) are the underlying cause of neoplasia development. This multi-step process is aptly illustrated by colorectal carcinoma (CRC), usually developing in the course of decades, and presumably requiring at least seven genetic events to complete its development. In CRC the oncogenes most frequently undergoing mutation are c-k-ras and c-myc, and among tumor suppressant genes--APC, MCC, DCC, p53. An updated model of the molecular bases for adenoma occurrence and its evolution into carcinoma is presented. Inheritance of a single gene only which has undergone mutation augments substantially the predisposition to CRC. This is noted in a clearcut manner in the hereditary syndromes familial adenomatous polyposis (FAP) and hereditary non-polypous colorectal carcinoma (HNPCC). Recent studies along these lines suggest that the genetic defect in FAP increases the incidence of tumor initiation through functional impairment of the APC gene which is a gene regulator of the enhanced colorectal mucosa proliferation. Contrarily, the defect in HNPCC involves mainly the tumor progression through mutation of the DNA repair genes (MMRs), which are regulators of the genome stability. The study of hereditary syndromes give rise to a new concept for the occurrence and development of sporadic and inherited cancer in humans.
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PMID:[The molecular biology and genetics of colorectal carcinoma]. 973 86

Seventy-five to 80% of breast cancers are negative for p53 gene mutations. We have investigated the possibility that altered WAF1 genes provide an alternative mode of cell cycle disruption in these tumors. DNA from a total of 85 primary breast tumors and cell lines from both the United States and Australia were examined for WAF1 and p53 mutations. With the exception of one primary tumor containing the polymorphic codon 31 (AGC-->AGA), no missense mutations in the WAF1 gene were found in 33 primary tumors or in the 19 cell lines from the United States. By contrast, 2 of 33 tumors from Australia contained tumor-specific missense mutations in the WAF1 gene, while an additional six cases contained the AGC-->AGA polymorphic 31st codon in the WAF1 gene. The p53 mutation frequency in the Australian cohort (18%) was found to be similar to that reported by us (Glebov et al., Cancer Res., 54: 3703-3709, 1994; Runnebaum et al., Proc. Natl. Acad. Sci. USA, 88: 10657-10661, 1991) in the tumors of United States patients (13%) with sporadic breast cancer. Thus, mutations in the WAF1 gene are rare in tumors with or without p53 mutations, suggesting that except in a minor population of breast cancer patients of Caucasian origin, cell cycle dysregulation by mutated p53 or WAF1 genes may not contribute to breast tumor initiation or progression.
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PMID:Altered WAF1 genes do not play a role in abnormal cell cycle regulation in breast cancers lacking p53 mutations. 981 58

The role of p53 gene mutations in the formation or progression of human astrocytic tumors is controversial. We studied the distribution pattern of p53 immunoreactivity and analyzed p53 gene mutations to define the significance of p53 gene mutations in astrocytoma tumorigenesis or malignant progression. Twenty-three astrocytic tumors were evaluated with immunohistochemistry, single-strand conformation polymorphism (SSCP) analysis, and sequence analysis. We also searched MEDLINE to collect data on p53 gene mutation frequencies in astrocytic tumors in order to evaluate the association of p53 mutations and tumor grade. Strong immunoreactivity with a diffuse clustering pattern was found in three of five glioblastomas and seven of 12 anaplastic astrocytomas. Three of four low-grade astrocytomas were immunonegative. The p53 immunopositive cells in the only positively staining low-grade astrocytoma in our study appeared sparsely scattered. The results of immunostaining suggested that clonal expansion was associated with astrocytoma progression. Mutations of the p53 gene were detected in four of the 23 astrocytomas (one glioblastoma and three anaplastic astrocytomas). In the genetic data analysis, 76 of 367 astrocytomas had p53 gene mutations. A significantly greater p53 gene mutation frequency was found in anaplastic astrocytomas or glioblastomas than in the low-grade astrocytomas. The results of these immunohistochemical and genetic studies support the view that p53 gene mutation is associated with the malignant progression from low-grade to high-grade astrocytomas rather than with tumor initiation or promotion.
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PMID:Expression and mutation analysis of the p53 gene in astrocytoma. 1006 71

Although alterations in chromosome number have frequently been detected in human tumor cells and associated with tumor initiation and progression, the causal mechanisms are still not understood. One protein known to be involved in maintaining genetic stability is tumor suppressor p53. In mice, p53 has been implicated in the maintenance of diploidy (Cross et al., 1995) and the regulation of centrosome duplication (Fukasawa et al., 1996). Here we report on cerebral primitive neuroectodermal tumors that lacked the wild-type p53 gene (TP53) and showed multiple numerical chromosome aberrations, as detected by comparative genomic hybridization. In these tumors, the centrosome number was significantly higher than in a control tumor without a detected TP53 mutation and with few chromosomal imbalances. These findings indicate that abnormal centrosome amplification can occur in human tumors lacking wild-type TP53 and may be a mechanism by which numerical chromosome aberrations are generated.
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PMID:Centrosome amplification as a possible mechanism for numerical chromosome aberrations in cerebral primitive neuroectodermal tumors with TP53 mutations. 1007 1

The incidence of adenocarcinoma of the distal esophagus is rapidly increasing in the Western world. The histopathological sequence of (Barrett's) metaplasia, which develops as a consequence of chronic reflux, to dysplasia and then to carcinoma is well established for these tumors. In Barrett's esophagus a variety of molecular changes have been characterized and correlated with tumor initiation and progression. Among the early changes in premalignant stages of metaplasia are alterations of the transcripts of FHIT, a presumptive tumor suppressor gene which spans the common fragile site FRA3B. Mutations of p53 seem to accumulate mainly in the transition from low to high grade dysplasia. Inactivation of other tumor suppressor genes by mutation (APC, p16) or hypermethylation (p16) as well as amplification of oncogenes such as cerbB2 are relatively late events in the development of adenocarcinoma. Among the phenotypic changes in Barrett's esophagus are an expansion of the Ki67 proliferation compartment which correlates with the degree of dysplasia. Moreover, accumulation of rab11 molecules which are involved in membrane trafficking has been reported to be specific for the loss of polarity seen in low grade dysplasia. Reduced expression of the cadherin/catenin complex as well as increased expression of various proteases develop chiefly in invasive carcinomas. Despite the progress that has been made in the identification of molecular markers in Barrett's carcinoma, to date the histopathological diagnosis of high grade dysplasia in endoscopic biopsies remains the best predictor of invasive cancer. Immunohistochemistry applying a panel of antibodies including p53, Mib-1 or rab11 can be helpful to diagnose regenerative metaplastic epithelium or low and high grade dysplasia.
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PMID:The molecular pathology of Barrett's esophagus. 1021 17

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