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)

Tumor origin is viewed as comprising a series of specific genetic events in target cells and their clonal descendants. The development of molecular biology during the last decade has led to the recognition that these events fall into two distinct categories: the activation of protooncogenes and the inactivation of tumor suppressor genes. The latter are genes the inactivation of which is required for the malignant transformation of a cell. Loss of tumor suppressor genes plays an important role in the development of human tumors. Studies with somatic cell hybrids have shown that tumor suppression occurs in neoplastic cells and can be corrected by cell fusion with normal human chromosome. These experiments proved that tumorigenicity is a recessive phenotype controlled by specific chromosomes. Certain tumor suppressor genes, e.g. p53 and RB1, may be involved in a variety of malignancies whereas others, e.g. the DCC gene, may be restricted to a single type of cancer. The detection of germline mutations in tumor suppressor genes should allow the identification of subjects at high risk of developing cancer.
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PMID:[Tumor suppressor genes. New perspectives for clinical investigations in cancer]. 799 35

We have investigated the involvement of the p53 and RB1 tumor-suppressor genes in 26 cases of chronic myeloid leukemia (CML) blast crisis, including 17 myeloid, eight lymphoid, and one megakaryoblastic crisis. The presence of p53 mutations in exons 5 through 9 was tested by the PCR-single-strand conformation polymorphism (SSCP) assay, followed by PCR-direct sequencing; in addition, loss of heterozygosity (LOH) at 17p13, the site of the p53 gene, was assayed by Southern blot. Given the variability of the mechanisms of inactivation of the RB1 gene in human tumors, a combination of Southern blot and mutational analysis by PCR-SSCP was used. p53 mutations were restricted to one case of myeloid blast crisis, showing a CGC-->TGC (Arg-->Cys) mutation at codon 283; two additional cases displayed LOH at 17p13 in the absence of p53 mutations. No molecular lesions of the RB1 gene were detected in any of the cases analyzed. These data indicate that inactivation of p53 and RB1 is a rare event in the molecular pathogenesis of CML acute transformation.
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PMID:Genetic analysis of p53 and RB1 tumor-suppressor genes in blast crisis of chronic myeloid leukemia. 811 Aug 76

We have investigated the involvement of tumor suppressor genes (p53 and RB1) and dominantly acting oncogenes (Ras family genes) in BCR/ABL positive and negative chronic myeloproliferative disorders (CMPD) at different stages of the disease, including 26 cases of BCR/ABL+ chronic myeloid leukemia (CML) blast crisis, 9 myelosclerosis with myeloid metaplasia, 4 polycythemia vera, 10 essential thrombocythemia, 1 juvenile CML, and 8 BCR/ABL- CML. The presence of mutations in p53 exons 5 through 9, as well as in RB1 exons 10-27 and in N-, K-, H-Ras exons 1 and 2 was tested by the PCR-Single Strand Conformation Polymorphism technique and by PCR-Direct Sequencing. In addition, Southern blot analysis was used to investigate the occurrence of gross rearrangements in the p53 gene as well as loss of heterozygosity at 17p13, the site of p53. Acute phase BCR/ABL-CMPD cases displayed a high frequency of p53 (2/7) and Ras (3/7) lesions, whereas BCR/ABL- CMPD in chronic phase displayed only germline p53 and Ras sequences. Conversely, p53 inactivation was restricted to only 1/26 cases of BCR/ABL+ CML blast crisis. No alterations in the RB1 gene were detected in any of the cases analyzed. These data indicate that p53 inactivation and/or Ras activation might play a role in acute transformation of BCR/ABL- CMPD and that the molecular mechanisms of tumor progression may be different in BCR/ABL+ versus BCR/ABL-CMPD.
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PMID:Molecular mechanisms of tumor progression in chronic myeloproliferative disorders. 815

Sodium butyrate is known to induce morphological and biochemical changes associated with cell differentiation in some colon tumor cell lines including HT29. In our present study we observed that sodium butyrate treatment caused a decrease in the level of expression of RB1 gene on day seven of butyrate treatment but a gradual six to sevenfold decrease in the level of expression of p53 gene. Western blot analysis revealed a decrease in the level of the phosphorylated form of Rb protein (pRb) and an increase in the level of underphosphorylated pRb as compared to the control cells. These changes in the phosphorylation level were observed from day three of sodium butyrate treatment. In addition, the flat foci forming large differentiated cells also began to appear after 3 days of sodium butyrate treatment. In this study, we are able to show that, besides induction of differentiation, sodium butyrate treatment can also cause a reversal in the phosphorylation status of the pRb in colon tumor cell line HT29. These results suggest that the phosphorylation level of pRb could be associated with the cell differentiation process in human colonic epithelium and as a consequence in its neoplastic development.
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PMID:Effect of sodium butyrate on the expression of retinoblastoma (RB1) and P53 gene and phosphorylation of retinoblastoma protein in human colon tumor cell line HT29. 822 69

Non-Hodgkin's lymphoma (NHL) develops in about 5% to 10% of acquired immunodeficiency syndrome (AIDS) patients. The vast majority of AIDS-NHL are clinically aggressive B-cell NHL that are histologically classified as small noncleaved cell lymphoma (SNCCL), large cell immunoblastic plasmacytoid lymphoma (LC-IBPL), and large noncleaved cell lymphoma (LNCCL). In an attempt to understand the molecular pathogenesis of these tumors, we have investigated the involvement of dominantly acting oncogenes (c-myc, N-, K-, H-Ras), tumor suppressor genes (p53, RB1), and Epstein-Barr virus (EBV) infection in 27 AIDS-NHL samples (16 SNCCL, 5 LC-IBP, and 6 LNCCL). The following lesions were detected in AIDS-NHL: EBV infection (10/24; 41.6%), c-myc rearrangement (19/24; 79.1%), Ras mutation (4/27; 14.8%), and p53 loss/mutation (10/27; 37.0%). These lesions are not uniformly distributed, but, rather, cluster with specific types of AIDS-NHL: EBV infection is preferentially associated with LC-IBPL (4/4; 100%), while it is present in only a fraction of SNCCL (5/16; 31.2%) and LNCCL (1/4; 25%); c-myc oncogene activation clusters with SNCCL (16/16; 100%), whereas it is less frequent in LC-IBPL (1/4; 25%) and LNCCL (2/4; 50%); p53 inactivation is restricted to SNCCL (10/16; 62.5%) and consistently associated with c-myc activation. These data show that AIDS-NHL are associated with multiple genetic lesions that involve both proto-oncogenes and tumor suppressor genes and may accumulate in the relatively short period of time (4 to 6 years) between human immunodeficiency virus infection and AIDS-NHL development. These genetic lesions differ in the various AIDS-NHL subtypes, suggesting the involvement of distinct molecular pathway.
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PMID:Multiple genetic lesions in acquired immunodeficiency syndrome-related non-Hodgkin's lymphoma. 838 Feb 52

Two uncommon tumors of the head and neck first revealed primary roles for two classes of cancer genes (oncogenes, tumor suppressor genes) in the origin of human cancer. In Burkitt's lymphoma the initiating event is a chromosomal translocation that leads to unregulated expression of an oncogene (MYCC), whereas retinoblastoma involves loss of function of both copies of a tumor suppressor gene (RB1). In osteosarcoma the RB1 gene is often affected, as is the gene (TP53) that codes for the p53 protein. TP53 is frequently mutated in carcinomas of the head and neck, as in one of the ras oncogenes. Multiple genetic changes typify carcinomas. Some carcinomas of the head and neck contain one of the human papilloma viruses that produce proteins that combine with and inactivate p53 and pRB proteins, rendering mutations in these genes unnecessary.
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PMID:Genetics of tumors of the head and neck. 839 Dec 74

This article describes cytogenetic findings in human small cell lung cancer (SCLC). Included is a summary of analyses performed by the authors on 17 tumors, each of which displayed numerous chromosomal alterations. Many of the recurrent changes involve losses at the locations of tumor suppressor genes, whose loss and/or inactivation may play a crucial role in tumorigenesis. Deletions of the short arm of chromosome 3 (particularly 3p21-25) were found in every case, providing additional evidence in support of the notion that this region harbors a tumor suppressor gene(s) critical in the pathogenesis of SCLC. Cytogenetic losses of 5q21, 13q14, and 17p13 (sites of the APC, RB1, and TP53 suppressor loci, respectively) also are common in SCLC. Double minutes are found in a minority of these tumors and are associated with oncogene amplification. The genetic complexity in SCLC underscores the need for greater preventive measures and early detection.
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PMID:Molecular implications of recurrent cytogenetic alterations in human small cell lung cancer. 840 11

Fluorescent polymerase chain reaction (PCR) was used to assay 12 microsatellite markers (APC x 2, DCC, P53 x 2, RB1, NM23, WT1, D6S260, D6S262, D6S281 and TNFa) to look for evidence of microsatellite instability in 40 cases of follicle centre cell lymphoma (FCC). Evidence of novel alleles seen in the tumour tissue but not the normal uninvolved tissue was seen in seven cases (17%). In only two of these cases (5%) was more than one locus involved but in these cases multiple affected loci were seen (4/12 and 7/12 respectively). The detection of microsatellite instability indicates a DNA repair defect such as that which would be predicted to occur in cells with mutated mismatch repair genes, a novel finding in FCC lymphoma.
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PMID:Microsatellite instability in follicle centre cell lymphoma. 861 53

Recent advances in cancer biology have clearly demonstrated that the development of neoplasms as well as their progression are strictly linked to the alteration of molecular mechanisms controlling the cell division cycle. Among these mechanisms the functional inactivation of two important tumor suppressor genes, namely RB1 and p53, has been widely recognized as a pivotal step in human cancerogenesis. In addition to such well-known genes, a new tumor suppressor gene, mapping on chromosome 9p21, has recently been identified and cloned. Several findings suggest that its loss of function is involved in the initiation and/or progression of an enormous number of different malignancies. This gene, named p16INK4, codifies for a small protein capable of binding to, and thus of inhibiting, some specific cyclin-dependent threonine-serine kinases that represent key enzymatic activities essential for the G1-S transition in mammalian cells. This review will summarize some aspects of the cell cycle control mechanisms, with major emphasis devoted to the role played by this recently characterized inhibitor and to the possible linkage between its inactivation and cancer formation. In particular, we will discuss these aspects in the light of the role of p16INK4 gene inactivation in the development of human acute lymphoblastic leukemias. Indeed this gene seems to be the first, and so far the only tumor suppressor gene consistently altered in specific acute hematological malignancies. Finally, future trends in the investigation of cell cycle control and leukemogenesis will be analyzed.
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PMID:Cell cycle regulation and human leukemias: the role of p16INK4 gene inactivation in the development of human acute lymphoblastic leukemia. 864 24

Protooncogenes are cell cycle-related genes that are involved in cell growth of proliferation. Alterations in the level of expression of these genes, or expression of aberrant gene productions, have been observed in tumors and precancerous conditions. To determine if expression of these genes is altered in patients with inflammatory bowel disease (IBD) --who are at risk for development of colon cancer--we assayed transcripts of 15 protooncogenes in colonic epithelial cells of IBD patients and controls. Nine of these genes (H-ras, c-myc, c-fos, c-jun, junB, N-myc, c-abl, c-yes, and p53) were expressed in epithelial cells, whereas two (RB1 and N-ras) were not. expression of four other genes (c-src, K-ras, c-raf, and c-myb) was observed, but the intensity of these bands was too low for densitometric analysis. The steady-state levels of transcripts of H-ras and five nuclear protooncogenes (c-myc, c-fos, c-jun, junB, and N-myc) were lower in epithelial cells from involved or uninvolved IBD samples than in normal epithelial cells from either sporadic colon cancer or diverticulitis patients. The level of c-fos mRNA was two- to threefold higher in involved than in uninvolved areas of the colons of two ulcerative colitis (UC) patients, but not in one Crohn's disease (CD) patient. Message abundance of c-abl transcripts was two- to threefold lower in UC epithelial cells than in either the CD or control samples. The steady-state level of c-yes-encoded mRNA was considerably higher in IBD patients resected for colon cancer than in patients resected for active chronic IBD or in controls. The level of p53 message was constant in these samples. Increased levels of c-fos mRNA in involved UC relative to uninvolved UC may be related to the disease process. Decreased expression of c-abl transcript in UC may be a diagnostic marker for UC and may be related to the rate of cell turnover in these diseases. Enhanced expression of c-yes in IBD patients with tumors compared to active chronic IBD and controls suggests that expression of this gene may be a marker for development of colon cancer in IBD.
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PMID:Expression of protooncogene-encoded mRNA by colonic epithelial cells in inflammatory bowel disease. 867 85


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