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 report the case of a 57-year-old woman with an unusually fast-growing and destructive osteoblastic tumor affecting the left humeral head. On histopathologic examination, most of the initial tumor revealed the characteristic morphologic features of a benign-appearing aggressive osteoblastoma. Based upon the presence of a few small scattered areas composed of atypical osteoblasts in abundant lace-like osteoid showing vascular permeation, the definitive diagnosis was that of an osteoblastoma with focal malignant transformation to well-differentiated osteosarcoma. Molecular biologic analysis revealed a splice mutation at the exon 5 donor site of the p53 gene, clearly indicating a malignant potential of the tumor. The proximal third of the humerus was resected en bloc and replaced by an uncemented modular endoprosthesis. Five months after surgery, an extensive local soft tissue recurrence occurred. Eight months postoperatively, a further massive recurrent tumor had developed an multiple pulmonary metastases became evident. Chemotherapy caused a marked decrease in the size of the soft tissue recurrences and the lung metastases showed no further increase of their number and size. Osteoblastomas with conversion to osteosarcoma should be considered a separate clinicopathologic tumor entity to be distinguished from genuine osteosarcoma. All cases of malignantly transformed conventional and aggressive osteoblastomas reported to date have shown a conversion to low- or high-grade osteosarcomas only in recurrent tumors. The present case supports the concept that osteoblastomas may primarily undergo early malignant transformation. Osteoblastomas with conversion to osteosarcoma require an aggressive surgical approach followed by chemotherapy in the hope of prolonging life expectancy or obtaining a cure.
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PMID:Aggressive osteoblastoma with focal malignant transformation and development of pulmonary metastases. A case report with a review of literature. 878 Sep 39

Molecular defects affecting tumor-suppressor genes are an important step in the genesis of sarcomas. For example, inheritance of a defective Rb or p53 gene predisposes the carrier to develop osteosarcoma, among other malignancies. In this study, we have assessed the occurrence of p53, Rb and MDM2 alterations in the same samples of osteosarcomas, along with representative samples of various other sarcomas. Point mutations of the p53 gene were found in 13 of 42 osteosarcomas and 1 of 8 leiomyosarcomas, and gross rearrangement of the p53 gene was demonstrated in 5 of 37 osteosarcomas. The retinoblastoma susceptibility gene (Rb) was either rearranged or deleted in 7 of 37 osteosarcomas, 1 of 7 soft-tissue sarcomas and 1 of 4 Ewing sarcomas. Remarkably, 5 of the osteosarcomas having Rb alterations also had p53 mutations. Amplification and overexpression of the MDM2 oncogene may lead to increased MDM2-p53 binding resulting in inactivation of p53 function. A two- to threefold increase in the copy number of MDM2 was detected in 7 of 37 samples, 5 of which were osteosarcomas. Amplification of the MDM2 gene occurred independently of p53 mutation; one sample having threefold amplification of MDM2 also had a p53 mutation. In summary, 34 alterations of the p53, Rb and MDM2 genes were found in 26 of 42 (62%) osteosarcomas.
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PMID:Alterations of the p53, Rb and MDM2 genes in osteosarcoma. 878 71

In this study, we analyzed the spectrum of p53 tumor suppressor gene mutations in 40 highly malignant osteosarcomas, one osteosarcoma metastasis, and one osteoblastoma with malignant transformation. Using predominantly formalin-fixed and paraffin-embedded material, we performed polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis of exons 4-8 and direct sequencing. Molecular genetic findings were correlated with immunohistochemical detection of p53 protein. A total of eight alterations (19%) were identified. Two splice mutations were detected in one case of a highly malignant osteosarcoma and its metastasis, and in one osteoblastoma with focal malignant transformation. Four of the mutations were missense mutations, one was of the silent type. These data correspond to the results found in the literature on bone and soft tissue tumors. Therefore, retrospective studies of p53 gene turn out to be quite appropriate for molecular biologic examinations.
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PMID:Mutation spectrum of p53 gene in highly malignant human osteosarcomas. 879 83

WT1 encodes a zinc finger transcription factor that is inactivated in a subset of Wilms' tumors. We have recently shown that introduction of wild-type WT1 into a Wilms' tumor-derived cell line, RM1, results in growth suppression, consistent with its function as a tumor suppressor gene. WT1-mediated growth suppression was also observed in other cells derived from embryonal tumors, including two osteosarcoma cell lines, U2OS and Saos-2, notable for the respective presence or absence of wild-type p53. To further characterize the functional properties of WT1, multiple U2OS and Saos-2 cell lines were established, expressing either wild-type WT1 splicing variants or naturally occurring mutants under control of a tightly regulated tetracycline repressable promoter. Induction of WT1 in these cells resulted in programmed cell death. This effect was preferentially mediated by WT1 isoform B (encoding alternative splice I, lacking alternative splice II "KTS"), and it was independent of p53, occurring in both U2OS and Saos-2 cells. WT1-mediated apoptosis was associated with transcriptional repression of the epidermal growth factor receptor (EGFR) and reduced synthesis of endogenous EGFR protein synthesis. Constitutive expression of EGFR abrogated WT1-mediated cell death. We conclude that wild-type WT1 can induce apoptosis in embryonal cancer cells, presumably through the withdrawal of required growth factor survival signals, and that EGFR is a physiological target gene for WT1.
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PMID:Functional properties of WT1. 882 73

We investigated the structure and the expression of various oncogenes in three of the most common human bone tumors-osteosarcoma (36 samples from 34 patients), giant cell tumor (10 patients), and chondrosarcoma (18 patients)-in an attempt to identify the genetic alterations associated with these malignancies. Alterations of RB and p53 were detected only in osteosarcomas. Alterations of c-myc, N-myc, and c-fos were detected in osteosarcomas and giant cell tumors. Ras alterations (H-ras, Ki-ras, N-ras) were rare. Chondrosarcomas did not contain any detectable genetic alterations. Our results suggest that alterations of c-myc, N-myc, and c-fos oncogenes occur in osteosarcomas, in addition to those previously described for the tumor suppressor genes RB and p53. Moreover, statistical analyses indicate that c-fos alterations occur more frequently in osteosarcoma patients with recurrent or metastatic disease.
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PMID:Oncogene alterations in primary, recurrent, and metastatic human bone tumors. 889 2

To determine if replacement of the retinoblastoma (RB) tumor suppressor gene could inhibit invasion of RB-defective tumor cells, the capacity of tumor cells to migrate or invade was quantitated by the Boyden chamber assay. The studies were done in a diverse group of stable RB-reconstituted human tumor cell lines, including those derived from the osteosarcoma and carcinomas of the lung, breast and bladder. The expression of the exogenous wild-type RB protein in these tumor cell lines was driven by either a constitutively active promoter or an inducible promoter. It was found that significantly more tumor cells from the parental RB-defective cell lines and the RB revertants than from the RB-reconstituted RB+ cell lines penetrated through the Matrigel (P<0.001, two-tailed t-test), although both RB+ and RB- cells migrated at approximately the same rate on uncoated polycarbonate filters in the Boyden chambers. Of note, the inhibition of invasiveness of various RB-defective tumor cells by RB replacement was apparently well correlated with suppression of their tumorigenicity in vivo. In contrast, although either functional RB or p53 re-expression effectively suppressed tumor formation in nude mice of the RB-/p53null osteosarcoma cell line, Saos-2, replacement of the wild-type p53 gene had much less impact on their invasiveness as compared to the RB gene. These studies provided an insight into the broader biological basis of the RB-mediated tumor suppression in RB-defective tumor cells.
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PMID:Expression of the retinoblastoma (RB) tumor suppressor gene inhibits tumor cell invasion in vitro. 895 79

We have previously reported on radiation-induction of ptk-3 in rat astrocyte culture [Sakuma et al. (1995) Radiat. Res. 143, 1-7]. Ptk-3 was considered to be a rat version of human DDR (discoidin domain receptor). We cloned and analyzed genomic DNA of the DDR and its promoter region. We discovered that the promoter region contained a consensus sequence of the p53 tumor suppressor binding site. Adenovirus-mediated p53 transfection induced a high level of DDR mRNA in SAOS2 human osteosarcoma cells. These results indicate that DDR is up-regulated by the p53 protein.
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PMID:Receptor protein tyrosine kinase DDR is up-regulated by p53 protein. 897 99

The two-plasmid system of Gossen and Bujard [Gossen and Bujard (1992) Proc. Natl. Acad. Sci. USA 89, 5547-5551] to express mammalian genes in a tetracycline-repressed fashion was combined into a single-plasmid system. Two variants of this single-plasmid system that differ in the multiple cloning site (MCS) region are described. These vectors were used to stably transfect raf kinase domain into the normal rat kidney epithelial cell line (NRKE) to obtain a conditionally transformed cell line. These vectors were also used to stably transfect wild-type and mutant human p53 into the human osteosarcoma cell line, SAOS-2. Tetracycline repressed gene expression in both cell lines; about 12-fold in NRKE and about 80-fold in SAOS-2 cell line.
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PMID:Construction and characterization of a one-plasmid system for the controlled expression of genes in mammalian cells by tetracycline. 901 60

Previously, we reported the establishment of two transplantable osteosarcomas, one induced by local application of a carcinogen, 4-hydroxyamino quinoline 1-oxide(4-HAQO), and another which developed spontaneously in rats, and their subdivision into four lines with high and low metastatic potential to the lung. In the present study, mutations of p53 and Ki-ras genes were investigated by PCR and SSCP followed by direct sequencing, and the amplification of the mdm2 gene was assessed by Southern blot analysis. Mutations of p53 in exon 7 were detected in 4-HAQO-induced transplantable osteosarcomas, but not their spontaneous counterparts, irrespective of the metastatic potentials. Direct sequencing revealed a CGC to CAC transition with an amino acid change of Arg to His, at codon 246. Neither Ki-ras mutations nor mdm2 amplification were detected in any of the transplantable tumors. The results suggest that while p53 mutations occurred during osteosarcoma development by 4-HAQO without mdm2 amplification and Ki-ras mutation does not contribute to osteosarcoma development in rats.
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PMID:p53 mutation and absence of mdm2 amplification and Ki-ras mutation in 4-hydroxyamino quinoline 1-oxide induced transplantable osteosarcomas in rats. 902 63

WT1 encodes a zinc finger transcription factor that is expressed in the developing kidney and the inactivation of which leads to Wilms' tumor, a pediatric kidney cancer. We have recently shown that inducible expression of WT1 in osteosarcoma cells triggers programmed cell death, an effect that is associated with transcriptional repression of the endogenous epidermal growth factor receptor. We now show that WT1-mediated apoptosis is preceded by induction of the cyclin-dependent kinase inhibitor p21, associated with G1 phase arrest. This effect is only demonstrated by WT1 isoforms with an intact DNA binding domain, and it is associated with increased expression of endogenous p21 mRNA. WT1-mediated induction of p21 is independent of p53, another tumor suppressor gene known to regulate p21 expression. In the kidney, p21 is expressed in differentiating glomerular podocytes along with WT1. We conclude that induction of p21 expression may contribute to WT1-dependent differentiation pathways in the kidney and potentially to the function of WT1 as a tumor suppressor gene.
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PMID:Induction of p21 by the Wilms' tumor suppressor gene WT1. 910 40

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