Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0677930 (primary tumor)
20,210 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenoid cystic carcinoma is a rare type of invasive breast carcinoma that has a good prognosis. We studied a series of four cases of adenoid cystic carcinoma in which we correlated the clinical and pathological features. The pathological features examined included light microscopy; electron microscopy; immunohistochemistry using antibodies to keratin, vimentin, S100 protein, actin, estrogen and progesterone receptors, and proliferation marker MiB-1, and p53 suppressor protein; image cytometric analysis for measurement of DNA ploidy; and molecular analysis using polymerase chain reaction single strand conformation polymorphism to assess point mutation of the p53 gene. All of the cases had a low nuclear grade, were negative for estrogen and progesterone receptors, and were DNA diploid. Three of the cases showed no evidence of metastases and had small primary tumors with low proliferative activity and absence of p53 protein expression. In contrast, one of the cases showed axillary lymph node metastases and in this case the primary tumor was large with a higher proliferative activity and expression of p53 protein, suggesting that these factors might play a role in the biological behavior of adenoid cystic carcinoma.
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PMID:Proliferative activity and p53 expression in adenoid cystic carcinoma of the breast. 868 17

Mutation of the p53 tumor suppressor gene is the most commonly observed gene alteration in human cancers. In order to identify new prognostic factors and tumor aggressiveness in squamous cell head and neck carcinomas, we analyzed 50 node metastases and 28 primary tumors including 13 matched specimens for p53 alterations. Mutations were found in 54 (69%) tumors, 76% of which were missense, 9% were nonsense and 15% were microdeletions or microinsertions. Twenty-five mutations were transitions mostly G-->A (40%) and 20 were transversions mostly G-->T (25%) thus confirming the role of tobacco carcinogens in the induction of these mutations. For eight patients mutations were observed in matched primary tumors and metastases, indicating clonal dissemination of tumor cells in most of these carcinomas. Furthermore the incidence of mutations was not different in primary tumors and node metastases indicating that this gene alteration was not related to the metastatic dissemination. No correlation was found between mutation and clinical parameters, the 8-year survival rates were not different (log rank test: P = 0.49) in patients with and without mutation. There was a good correlation between p53 mutation and protein overexpression (Fisher's exact test: P < 10(-4). Interestingly, immunostaining was also observed in basal cells from normal mucosa and in early lesions adjacent to the primary tumor in 11/15 specimens irrespective of the presence of mutation in the corresponding tumors. p53 protein overexpression may therefore constitute a biomarker for early stages of carcinogenesis of the head and neck epithelium.
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PMID:[High incidence of p53 mutations in primary and metastatic head and neck tumors. Frequent protein overexpression in normal epithelium]. 869 25

Mutation of the p53 gene is found in about one third of astrocytic brain tumors, and expansion of tumor cell clones containing mutant p53 has been implicated in astrocytic tumor progression. However, admixture of normal cells in astrocytic tumor specimens limits the power of traditional studies of tumor cell clonality. To address this problem we have employed a yeast p53 functional assay that scores the content of mutant p53 alleles in tumors and cell lines quantitatively. We have analyzed 17 cases where matching tumor material and derived cell lines were available. The yeast assay gave > 20% red (i.e., mutant p53-containing) yeast colonies in 7 out of 17 cases. One case had no mutations in the primary tumor but gave 76% red colonies in a recurrence, clearly demonstrating tumor overgrowth by a mutant clone. During early passages of cultured tumor cells, mutant p53 content increased rapidly with passage due to outgrowth of mutant clones from a heterogeneous starting population. In addition, de novo p53 mutations appeared during culture in 2 cases. This indicates that there is stronger selective pressure for mutation during the establishment of cell lines in vitro than during tumor growth in vivo. Our results demonstrate the utility of the p53 functional assay for studies of clonality and support the hypothesis of clonal progression of brain tumors in vivo.
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PMID:Clonality and stability of the p53 gene in human astrocytic tumor cells: quantitative analysis of p53 gene mutations by yeast functional assay. 870 23

We analyzed 29 pairs of primary and metastatic lung carcinomas obtained at autopsy for mutations in the p53 gene, using the polymerase chain reaction-single strand conformation polymorphism method (PCR-SSCP). We examined the relationship between p53 gene mutations and the development of metastasis, and the stability of p53 gene mutations during chemotherapy. The tumors consisted of six small cell carcinomas, 13 adenocarcinomas, eight squamous cell carcinomas, one large cell carcinoma, and one adeno-squamous cell carcinoma. PCR-SSCP analysis showed that three small cell carcinomas (50%), three adenocarcinomas (23%), two squamous cell carcinomas (25%), and one large cell carcinoma (100%) had p53 gene mutations. All these abnormalities were found between exon five and exon eight. The mutations in the primary tumors and the metastatic tumors were identical. These results suggest that p53 gene mutations occur before distant metastases develop, and that they may be stable during the process of metastasis. There were nine metastatic tumor samples that existed before the patients received chemotherapy. These samples showed identical p53 mutations as the corresponding primary tumor. This suggests that anticancer drugs rarely induce p53 gene mutations.
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PMID:Stability of p53 tumor suppressor gene mutations during the process of metastasis and during chemotherapy. 879 5

Recent molecular biology investigations have demonstrated that tumor progression and dissemination in bladder cancer is a highly complicated phenomenon, consisting of multiple distinct steps and regulated by a great number of different genes. Some of these genes involved in the specific steps of tumor progression and dissemination have been identified. Several oncogenes, e.g., the epithelial growth factor receptor (EGF-R), and tumor-suppressor genes, e.g., the p53 gene, have been found to correlate significantly with tumor progression. The decreased expression of cell-adhesion molecules such as E-cadherin appears to facilitate tumor-cell detachment in the primary tumor, whereas expression of the intercellular adhesion molecule (ICAM)-1 might be of relevance for cell attachment at the metastatic site. Tumor invasion through the basement membrane has been correlated with a decreased expression of laminin and elevated urinary levels of acidic fibroblast growth factor. Although the complex processes related to dissemination are far from being completely understood, the finding of differential expression of distinct genes appears to provide the first targets for therapeutic intervention.
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PMID:Molecular biology of dissemination in bladder cancer--laboratory findings and clinical significance. 880 98

Cancer has been proposed to develop by a process of stepwise accumulation of growth-advantageous genetic alterations which result in the evolution of clones which are outgrowths of such rare cells [1]. This model has recently been extensively tested in human gliomas, the most common primary tumor of the adult central nervous system. Temporal disease progression involves an interplay between growth-suppressing and growth-promoting genes. Specifically for gliomas, genetic studies have indicated loss of germline heterozygosity for chromosome 17p; mutation of the p53 gene; overexpression of the platelet-derived growth factor-alpha receptor; allelic losses of chromosomes 22q, 13q, and 19q; deletion of the interferon-alpha and beta and CDKN2 loci on chromosome 9p; amplification and rearrangement of the epidermal growth factor receptor gene, and monosomy of chromosome 10. The following discussion details these genetic alterations and their consequences for the biology of glioma progression with the ultimate aim of providing new avenues for clinical intervention.
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PMID:Molecular biology of malignant degeneration of astrocytoma. 881 14

Pleomorphic xanthoastrocytoma (PXA) is a low-grade glioma that may recur as a malignant diffuse astrocytoma such as glioblastoma (GBM). While the molecular genetic basis of diffuse astrocytomas has been studied extensively, PXAs have not been analyzed in detail. We, therefore analyzed DNA from archival primary and recurrent PXAs from eight patients (three grade II PXAs without recurrence, one grade II PXA with recurrence as grade II PXA, two grade II PXAs with progression to GBM, and two grade III anaplastic PXAs with recurrence as grade III anaplastic PXA or GBM) for genetic changes associated with diffuse astrocytomas. Single-strand conformation polymorphism analysis of p53 exons 5-8 revealed migration shifts in two cases, one primary PXA without recurrence and one recurrent grade II PXA in which the primary tumor did not show a shift. DNA sequencing showed two missense mutations in codons 220 (exon 6) and 292 (exon 8), respectively, mutations which have not been previously noted in astrocytomas. Differential polymerase chain reaction analysis demonstrated epidermal growth factor receptor gene amplification in only one tumor, a GBM without allelic loss of chromosome 10 that was the second GBM recurrence of an initial grade II PXA. Loss of heterozygosity studies on tumors from five patients, using three microsatellite polymorphisms on chromosome 10q and three on chromosome 19q, did not disclose allelic loss in any recurrent tumor. These findings suggest that the genetic events that underlie PXA formation and progression may differ significantly from those involved in diffuse astrocytoma tumorigenesis.
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PMID:Molecular genetic alterations in pleomorphic xanthoastrocytoma. 883 42

An unusual case of a patient with ovarian carcinoma carrying the p53 point mutation in both metastases (omentum and lymph node), but not in the primary tumor, is described. The presence of a p53 single mutation (G:A) at the second base of codon 248 was examined by polymerase chain reaction-amplification refractory mutation system (PCR-ARMS) analysis. This case was examined also by fluorescent in situ hybrization (FISH) analysis and flow cytometry (FCM) to obtain further information at the single cell level and to detect heterogeneity within a population of cells. FCM analysis evidenced the same multiple aneuploid cell subpopulations in primary and in metastatic samples showing the presence of a cellular heterogeneity. FISH analysis showed a disomic condition for the 17 chromosome in the primary and in one metastasis, while in the other metastasis a monosomic together with a disomic subpopulation was revealed. Our results confirm the independent clonal evolution of the metastasis. The late mutation event observed only in metastatic specimens suggests the hypothesis that in the primary tumor the wild-type gene either does not perform its control role for unknown genetic structural events or the p53 gene in this case does not play a critical role in carcinogenesis.
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PMID:Detection of cellular heterogeneity by DNA ploidy, 17 chromosome, and p53 gene in primary carcinoma and metastasis in a case of ovarian cancer. 885 51

A total of 10 glioma cell lines were examined for alterations of the p16, p15, p53 and p21 genes, which are tumor suppressor genes or candidates with direct or indirect CDK-inhibitory functions. Genetic alterations (deletions or mutations) were frequently seen in the p16, p15 and p53 genes in these cell lines, but not in the p21 gene. When the states of the p16, p15 and p53 genes were compared among cell lines, all the cell lines showed abnormalities in at least 1 gene, often in 2 or 3 genes coincidentally, suggesting that dysfunction of these genes is closely related to glioma cell growth. Although alteration of all 3 genes was most frequent, there were cell lines having either p16/p15 or p53 or pl6 and p53 gene alterations, suggesting that the time order of these genetic alterations was variable depending on the cell line. Among cell lines examined, one with homozygous p53 gene deletion seemed of particular practical value, since such a cell line might be useful in various studies, including investigation of the functions of various mutant p53 genes in the absence of heteromeric protein formation. On examination of the primary tumor tissues, the same alterations of the p16/p15 and p53 genes as detected in the cell lines were demonstrated in all 6 cases examined: p16/p15 gene deletion in 1, p16 gene mutation in 1 and p53 gene mutations in 5 cases. This suggested that the p16/p15 and the p53 gene alterations and their combinations in at least some glioma cell lines reflected those in the primary glioma tissues.
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PMID:A comparative study of glioma cell lines for p16, p15, p53 and p21 gene alterations. 887 51

During the last decade the frequency of therapy-related acute leukemia (t-leuk) and myelodysplastic syndrome (t-MDS) has been increasingly observed. Over the past 15 years, we treated 56 patients with t-leuk who had received prior chemotherapy (39%), radiotherapy (11%), or both (45%). The drugs received included alkylating agents and topoisomerase II inhibitors. The primary tumors included hematological malignancies (49%) and solid tumors such as breast or ovarian cancer. The median age at diagnosis of the primary tumor was relatively young (43 years +/- 18). Twelve patients had more than one primary tumor and 31 patients had a family history of malignancy. Karyotypic abnormalities were found in 91% of the patients. Prognosis was uniformly poor, with an overall median survival of 10 months. Twelve of the 18 patients examined (67%) had a multidrug resistance phenotype. P53 genes of the leukemic cells, as well as the original tumors, were analyzed in 21 patients using polymerase chain reaction (PCR) with single-stranded conformation polymorphism analysis followed by sequencing. P53 mutations were identified in 38% of these patients, a relatively high prevalence compared with other forms of MDS or de novo acute myeloid leukemia. Mutations were nongermline and restricted to the leukemic cells. We identified different p53 mutations in the various primary tumors of individual patients. The presence of a mutator phenotype was assessed by PCR analysis of microsatellites in eight loci (one trinucleotide repeat sequence, four dinucleotide, and three mononuclear repeat sequences). Microsatellite instability in two to seven loci were found in 15 of 16 (94%) of the patients. This instability is compatible with a mutator phenotype, which predisposes the patients to the development of malignancies including t-leuk.
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PMID:Microsatellite instability and p53 mutations in therapy-related leukemia suggest mutator phenotype. 894 66


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