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

Recently, clinical application of gene technology in oncology and hematology has been markedly advanced. Pathogenesis of leukemic transformation has been thought that it was resulted from cumulation of activation or mutation in oncogenes or onco-suppressor genes. As a matter of fact, many specific chromosomal abnormalities in leukemias have been thought to be due to production of chimeric fusion gene by translocation and activation in some kinds of oncogenes under specific regulatory genes after translocation. In addition to those, inactivation of onco-suppressor genes, such as RB gene or p53 gene, may be also related to leukemogenesis in some leukemias. Laboratory examinations using molecular technology are being necessary for clinical diagnosis and treatment in many hematological disorders. The examinations detecting rearrangement of major BCR or minor BCR in Ph1 positive leukemias, TCR in T cell malignancy, immunoglobulin in B cell malignancy, PML-RAR alpha fusion gene in APL have become routine for diagnosis of some leukemias. Moreover, these examinations are useful for judgement of treatment effects and evaluation of minimal residual diseases. In this paper, we also discuss the usefulness and importance of these technology especially in stem cell transplantation and cytokine therapy, and the future possibility in this technology for gene therapy.
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PMID:[Clinical application of gene technology for diagnosis and treatment of leukemia]. 902 44

Clonal chromosome abnormalities can be detected in approximately 50% of patients with chronic lymphocytic leukemia (CLL). The most common changes are trisomy 12, followed by structural abnormalities of 13q, 11q, 6q, and 14q. By fluorescence in situ hybridization (FISH), these aberrations can be demonstrated even in cases with insufficient mitotic yield or a normal karyotype. The biologic consequences of trisomy 12 are unknown, but a gene dosage effect is suspected and studies on partial trisomy 12 indicate that the region 12q13 to 12q22 might be of particular pathogenetic importance. Trisomy 12 is strongly associated with atypical lymphocyte morphology and seems to be a secondary event in leukemogenesis, as shown by combined immunophenotyping and interphase FISH. Structural abnormalities of 13q frequently involve hetero- and homozygous deletions of a region in 13q14, distal to the retinoblastoma gene, which may be the site of a tumor suppressor gene. In contrast to a normal karyotype or structural changes of 13q, complex karyotypic abnormalities, high percentage of abnormal metaphases, trisomy 12 and structural changes involving the P53 tumor suppressor gene on 17p13 are adverse prognostic indicators. Cytogenetic and molecular findings provide important diagnostic, clinical, and prognostic information which can contribute to treatment decisions and follow-up of CLL patients.
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PMID:Genetic abnormalities in chronic lymphocytic leukemia and their clinical and prognostic implications. 907 88

To elucidate the mechanism of leukemogenesis induced by bovine leukemia virus (BLV), the abnormality of p53 tumor suppressor gene was examined using the sequencing method of polymerase chain reaction (PCR)-amplified DNA from peripheral blood lymphocytes (PBL) and tumors from BLV-infected cattle that showed evidence of different stages during the progression of enzootic bovine leukosis (EBL). Mutations of the p53 gene were found in tumor cells from cattle with EBL, but not in PBL from BLV-free normal cattle or BLV-infected cattle without any evidence of tumor, suggesting mutation of p53 gene occurred specifically at the lymphoma stage of the disease. Twelve of eighteen cattle with EBL had seven missense and five silent mutations. The mutations were mapped to the highly evolutionarily conserved regions of p53 gene, and were involved in the DNA binding of p53. Thus, it appeared that the p53 point mutation is one of the critical events leading from the asymptomatic stage to the lymphoma stage.
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PMID:Point mutation of p53 tumor suppressor gene in bovine leukemia virus-induced lymphosarcoma. 920 85

Clinical studies have indicated that folate deficiency may enhance the development of various malignancies. In animal studies that examined the effect of folate deficiency on malignancies, conflicting results have been reported. In some studies, folate deficiency increased the development and growth of malignant tumors; in others, it decreased the development and growth of malignancies. We examined the effect of transient folate deficiency on the development of leukemia in mice infected with the anemia-inducing strain of Friend leukemia virus. Friend virus disease can be considered as a model for human acute leukemias that are preceded by a preleukemic period. These include leukemias that develop in patients who received previous chemotherapy and/or radiation therapy, as well as patients with chronic granulocytic leukemia or myelodysplasia. Folate deficiency around the time of Friend virus-infection delayed the onset but increased the incidence of leukemia. The rates of rearrangement of the Spi-1 (PU.1 ) oncogene by provirus integration and alteration of the p53 tumor-suppressor gene were the same in leukemia cell lines derived from folate-deficient mice as they were in cell lines from control mice. These results indicate that folate deficiency did not exert its enhancement of leukemogenesis through changes in either Spi-1 or p53, even though these two genes have been found to be the most frequently altered ones in Friend virus-induced leukemias. Our results suggest that folate deficiency may enhance the development of acute leukemia in patients who are at high risk for this disease.
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PMID:Folate deficiency delays the onset but increases the incidence of leukemia in Friend virus-infected mice. 935 75

Since the initial report of adult T-cell leukemia (ATL) in 1976, a number of investigators have described the basic biologic aspects of this disease. However, the precise mechanism of leukemogenesis remains unclear. Primary ATL cells demonstrate autonomous and IL-2 responsive growth in vitro. The autonomous growth of the cells is thought to be mediated by IL-2 in an autocrine manner, at least in part. These growth activities are related inversely to survival, and may be useful prognostic determinants. The viral Tax protein stimulates IL-2 and IL-2 receptor alpha expression via nuclear transfer factor NF-kappaB induction. We showed that marked activation of the Tax-NF-kappaB pathway is seen only in acute-type ATL patients. Recent studies show that mutations of p16 and p53 are also found in acute and lymphoma-type ATL. These appear to be late events in ATL leukemogenesis. The relationship between activation of Tax-NF-kappaB pathway and mutations of p53 and p16 genes is unknown. A few other genetic events may be involved in earlier stages of the entire process of ATL leukemogenesis, leading to smoldering and chronic-type ATL. These gene mutations may be accumulated by Tax protein during the long process from the time of HTLV-I infection to the onset of ATL.
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PMID:Autonomous and interleukin-2-responsive growth of leukemic cells in adult T-cell leukemia (ATL): a review of the clinical significance and molecular basis of ATL cell growth. 938 55

Human T-cell lymphotropic virus type 1 (HTLV-1) is the etiologic agent for adult T-cell leukemia. HTLV-1 transforms lymphocytes, and there is increasing evidence that the virus-encoded protein, Tax, plays a primary role in viral transformation. We have shown that wild-type p53 in HTLV-1-transformed cells is stabilized. This study was initiated to directly analyze whether the p53 in HTLV-1-transformed cell lines was transcriptionally active and to identify the viral gene product responsible for stabilization and inactivation. Transfection experiments using a p53-responsive reporter plasmid and gamma-irradiation studies demonstrate that the wild-type p53 in HTLV-1-transformed cell lines is not fully active. Further, we demonstrate that the HTLV-1-transforming protein, Tax, stabilizes and inactivates p53 function. Cotransfection of Tax with p53 results in a greater than 10-fold reduction in p53 transcription activity. Using Ga14-p53 fusion proteins, we demonstrate that Tax inhibition of p53 transactivation function is independent of sequence-specific DNA binding. Moreover, Tax inhibits p53 function by interfering with the activity of the N-terminal activation domain (amino acids 1 to 52). We conclude that Tax is involved in the inactivation of p53 function and stabilization of p53 in HTLV-1-infected cells. The functional interference of p53 function by Tax may be important for transformation and leukemogenesis.
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PMID:Inhibition of p53 transactivation function by the human T-cell lymphotropic virus type 1 Tax protein. 944 14

As a cyclin-dependent kinases (Cdks) inhibitor (CDI), the protein p21WAF1/CIP1 is able to interfere with cell cycle progression. Its expression is upregulated by wild-type p53, and the p21WAF1/CIP1 protein appears to be a potent effector of the p53-dependent cell cycle regulatory pathway. We have previously reported that p53 mutations frequently occur during bovine leukemia virus (BLV)-induced leukemogenesis in cattle but not in sheep. Therefore, we have investigated the involvement of p21WAF1/CIP1 mutations in the tumorigenic process associated with BLV. We first cloned the bovine and ovine WAF1 genes and determined the complete nucleotide sequences of their second coding exons. These sequences share respectively 79% and 80% homology with those of the human counterpart exon. In order to screen for mutations that could be associated with BLV-induced pathogenicity, we performed single strand conformation polymorphism (SSCP) assays on the WAF1 genes from BLV-induced tumors. No WAF1 mutations were detected in any of the ten BLV-induced bovine tumor samples. Among eleven sheep tumors and three ovine cell lines, only one sample revealed a single mutation in the WAF1 coding sequence, but this mutation was silent at the translational level. We concluded that mutations of the WAF1 gene are not involved in the development of the tumors during BLV-induced leukemogenesis.
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PMID:Lack of mutation in the WAF1/CIP1 gene during bovine leukemia virus-induced leukemogenesis. 947 80

Chemically-induced rodent tumor models help us to understand a series of genetic changes during carcinogenesis. In this study, we present N-nitroso-N-butylurea (NBU)-induced rat leukemia and compare it with the genetic alterations found in 7,12-dimethylbenz[a]anthracene (DMBA)-induced erythroblastic leukemias which consistently have an A to T transversion at the second base of codon 61 in N-ras. By continuous NBU treatment for 120-150 days, 14 primary leukemias were induced in Long-Evans rats. Myeloblastic leukemia cells predominantly increased in all rats except in one case which predominantly had erythroblastic leukemia cells. Point mutations of Ha-, Ki-, N-ras and p53 were determined after RNA was transcribed into cDNA and this cDNA was used as a substrate for polymerase chain reaction (PCR) which was eventually sequenced. No abnormalities in exons 1 and 2 of Ha-, Ki- and N-ras were detected in all leukemias. In the p53 gene, an A to C transition was found at the second base of codon 198 (Asn-Thr) in one leukemia, but others had no mutation. These results suggest that ras and p53 genes are infrequently involved in NBU-induced leukemias. The genetic target of NBU during leukemogenesis seemed to be different from that of DMBA.
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PMID:ras and p53 genes are infrequently involved in N-nitroso-N-butylurea (NBU)-induced rat leukemia. 950 Feb 11

The mutations of the p53 gene previously represented one of several genetic changes involved in the development of bovine leukemia virus (BLV)-induced lymphosarcoma, while the effects of these mutations on the function of p53 are unknown. We identified four mutations of p53 gene in BLV-infected cattle with lymphosarcoma and demonstrated clearly the existence of two functionally distinct groups of mutants: (i) the mutant forms with substitutions at codons 241 and 242, which were mapped within an evolutionally conserved region and corresponded to the human "hot-spot" mutations, had completely lost the capacities for transactivation and growth suppression and gained transdominant repression activity in p53-null SAOS-2 cells; and (ii) the mutations at codons 206 and 207 were located outside the evolutionally conserved regions. These mutants partially retained the capacity for transactivation and growth suppression and failed to inhibit the transactivation activity of coexpressed wild-type p53, instead showing an enhancement of this activity. In addition, protein analysis using an antibody specific for the mutant form revealed that the mutations at codons 206 and 242 induced a "mutant" conformation of the bovine p53 proteins. Collectively, these results show that mutations of p53 gene in BLV-infected cattle with lymphosarcoma can potentially alter its physiological function and may play an important role in BLV-induced leukemogenesis. Copyright 1998 Academic Press.
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PMID:Function and Conformation of Wild-Type p53 Protein Are Influenced by Mutations in Bovine Leukemia Virus-Induced B-Cell Lymphosarcoma 952 33

The mutations of the p53 gene previously represented one of several genetic changes involved in the development of bovine leukemia virus (BLV)-induced lymphosarcoma, while the effects of these mutations on the function of p53 are unknown. We identified four mutations of p53 gene in BLV-infected cattle with lymphosarcoma and demonstrated clearly the existence of two functionally distinct groups of mutants: (i) the mutant forms with substitutions at codons 241 and 242, which were mapped within an evolutionally conserved region and corresponded to the human "hot-spot" mutations, had completely lost the capacities for transactivation and growth suppression and gained transdominant repression activity in p53-null SAOS-2 cells; and (ii) the mutations at codons 206 and 207 were located outside the evolutionally conserved regions. These mutants partially retained the capacity for transactivation and growth suppression and failed to inhibit the transactivation activity of coexpressed wild-type p53, instead showing an enhancement of this activity. In addition, protein analysis using an antibody specific for the mutant form revealed that the mutations at codons 206 and 242 induced a "mutant" conformation of the bovine p53 proteins. Collectively, these results show that mutations of p53 gene in BLV-infected cattle with lymphosarcoma can potentially alter its physiological function and may play an important role in BLV-induced leukemogenesis.
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PMID:Function and conformation of wild-type p53 protein are influenced by mutations in bovine leukemia virus-induced B-cell lymphosarcoma. 954 Jul 87


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