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)

Chronic lymphoproliferative disorders are a heterogeneous group of diseases with a highly variable clinical course. In the past few years, important progress has been made in the classification, biology, and therapy of some of these disorders of which B-cell chronic lymphocytic leukemia is not only the most frequent but also the model for their study. Regarding classification, entities that may be confounded with chronic lymphocytic leukemia have been identified (eg, splenic lymphoma with villous lymphocytes, mantle-cell lymphoma in leukemic phase); these diseases should be known and clearly separated from chronic lymphocytic leukemia because their prognosis and treatment is different from that of chronic lymphocytic leukemia. On the other hand, the molecular basis of some of these diseases (eg, the overexpression of the Prad1/CCND1 gene in mantle-cell lymphomas, the relationship between bcl-2 and bax expression in chronic lymphocytic leukemia homeostasis, the role of p53 tumor suppressor gene mutations in chronic lymphocytic leukemia progression) are increasingly well known. Cytokines (eg, tumor necrosis factor-alpha or IL-2, IL-4, and IL-13) also contribute to the pathogenesis of lymphoproliferative disorders by either promoting cell growth or inhibiting apoptosis. In addition, new treatment possibilities (eg, purine analogues, hemopoietic progenitors transplants) are changing the treatment objectives in some of these diseases. Thus, symptoms' palliation is no longer the only realistic aim in the management of patients with chronic lymphoproliferative disorders, but sustained complete remissions and even cures can be achieved.
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PMID:Chronic lymphoproliferative disorders. 909 Apr 92

In rapidly proliferating tissues the stringent control of cell proliferation and cell death by apoptosis is central to the maintenance of tissue homeostasis. In the gastrointestinal tract most work studying the control of tissue cell number has traditionally focused on the growth factor control of proliferation, and the changes that occur during carcinogenesis. However, in recent years it has become increasingly apparent that the control of apoptosis is also crucial. Apoptosis is an important mechanism for eliminating both excess normal cells and those cells which have sustained damage; therefore maintaining a tissue, i.e., stem cells with preserved DNA integrity. In this review the incidence of apoptosis in the stem cells of both the small and large intestine will be discussed in relation to the expression of a number of apoptosis regulating genes (e.g. p53, Bcl-2, bax) within these cells. The importance of apoptosis as a means of controlling stem cell number (and therefore cellular output) will be addressed, as will the mechanisms by which any alterations to this process may contribute to malignancy.
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PMID:Regulation and significance of apoptosis in the stem cells of the gastrointestinal epithelium. 909 Jul 84

The Interleukin-1beta converting enzyme (ICE) family of proteins, homologs of the C elegans cell death gene product CED-3, play important roles in controlling vertebrate programmed cell death. Because inhibition of apoptosis may be an essential step in tumorigenesis, we investigated the interaction of the simian virus 40 large T antigen (T ag) with the ICE family. COS-1 cells which were transformed by the simian virus 40 do not die when transfected with expression constructs of Ice or Ich-1(L). We found that expression of T ag alone significantly prevents the ICE-induced apoptosis. p53, but not pRb or p107, antagonizes the effect of T ag on the suppression of ICE-induced cell death, but not on ICH-1(L)-mediated cell death. Thus, wild type p53 may potentiate ICE-induced apoptosis. Expression of a temperature sensitive mutant p53Val(135) sensitizes COS-1 cells to apoptosis induced by ICE at permissive but not at non-permissive temperature. While induction of bax, p21(WAF1/CIP), or cyclin D1 gene expression is observed in the COS-1 p53Val(135) cells at the permissive temperature, overexpression of bax, but not p21(WAF1/CIP) or cyclin D1, potentiates ICE-induced COS-1 cell death. Taken together, these results suggest that T ag may modulate the cells' susceptibility to death by suppressing activity of the ICE family through inhibiting p53.
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PMID:Suppression of interleukin-1beta converting enzyme (ICE)-induced apoptosis by SV40 large T antigen. 912 70

Inactivation of p53-dependent apoptosis promotes oncogenic transformation, tumor development, and resistance to many cytotoxic anticancer agents. p53 can transcriptionally activate bax, a bcl-2 family member that promotes apoptosis. To determine whether bax is required for p53-dependent apoptosis, the effects of bax deficiency were examined in primary fibroblasts expressing the E1A oncogene, a setting where apoptosis is dependent on endogenous p53. We demonstrate that bax can function as an effector of p53 in chemotherapy-induced apoptosis and contributes to a p53 pathway to suppress oncogenic transformation. Furthermore, we show that additional p53 effectors participate in these processes. These p53-controlled factors act synergistically with Bax to promote a full apoptotic response, and their action is suppressed by the Bcl-2 and E1B 19K oncoproteins. These studies demonstrate that Bax is a determinant of p53-dependent chemosensitivity and illustrate how p53 can promote apoptosis by coordinating the activities of multiple effectors.
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PMID:bax-deficiency promotes drug resistance and oncogenic transformation by attenuating p53-dependent apoptosis. 912 97

To understand the effects of ionizing radiation on thyroid cells, we investigated the role of p53 in mediating apoptosis and in DNA repair following in vivo and in vitro irradiation of thyroid cells. In vitro exposure of human thyroid cells to ionizing radiation of up to 5-8 Gy failed to induce apoptosis in primary cells. The same results were obtained when the thyroid gland was irradiated in the intact rat. To explore the mechanism of failure of the wild-type p53 in inducing apoptosis in thyroid cells, we investigated the expression of apoptosis-related genes, bax, bcl-2 and fas/APO-1 following irradiation or induction of temperature-sensitive p53. The expression of Bax, Bcl-2 and Fas/APO-1 in human primary cultured thyroid cells did not change after irradiation. To further confirm the results, we established a clonal cell line (tsFRO) in which a temperature sensitive p53 (Val138) expression vector was stably transfected to a thyroid carcinoma cell line lacking endogenous p53. Incubation of tsFRO cells at the permissive temperature for three days, however, did not induce apoptosis although G1 arrest was noted. Although enhanced expression of the bax mRNA level was observed, the expression of Bax, Bcl-2 and Fas/APO-1 protein did not change by shifting tsFRO cells to permissive temperature as well as irradiated primary cells. Furthermore, DNA end-jointing ability was examined by transfection of linearized luciferase plasmid into tsFRO cells. Increased luciferase activity occurred when the cells were cultured at the permissive temperature, indicating that the wild-type p53 enhances DNA end-jointing activity. Our results indicate that the wild-type p53 does not lead to apoptosis but facilitates DNA end-jointing in thyroid cells. These results may reflect specific responses in thyroid cells following irradiation.
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PMID:p53 induced by ionizing radiation mediates DNA end-jointing activity, but not apoptosis of thyroid cells. 912 41

In this study, we examined the susceptibility of various oncogene-transformed NIH/3T3 cells to apoptosis induced by alkylating agents. Only v-Ha-ras-transformed cells showed marked resistance to apoptotic death induced by these drugs. Upon treatment with methylmethane sulfonate (MMS), NIH/3T3 cells exhibited normal G1 checkpoint function accompanied by the accumulation of p53 and p21CIP1/WAF1 protein. However, no such effects were observed in v-Ha-ras-transformed cells. To further examine the functional status of p53 in ras-transformed cells, we determined the DNA sequence, protein half-life, protein-complexing activity, and specific DNA-binding activity of p53. The results showed that ras transformants and parental NIH/3T3 cells had the same p53 protein half-life of 40 min or less, the same normal wild-type p53 cDNA sequence, and the same coimmunoprecipitable cellular proteins complexed with p53. In electrophoretic mobility gel-shift assays, however, nuclear extracts of cells treated with MMS, ras-transformed cells, and normal cells displayed distinct patterns of binding between p53 and its consensus binding site. Furthermore, western blot analysis showed that the bcl-2 and bax proteins were constitutively elevated in ras-transformed cells but not in parental NIH/ 3T3 cells. Heat-shock protein 70 (hsp70), which has been found to be negatively regulated by wild-type p53, was also dramatically induced in ras-transformed cells but not in NIH/3T3 cells in response to MMS. Thus, our data suggest that an activated ras oncogene can suppress alkylating agent-induced apoptotic cell death by means of a defect in the signal transduction pathway regulating p53 function and alteration in the expression of apoptotic (bax) or anti-apoptotic proteins (bcl-2 and hsp70).
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PMID:Resistance to apoptosis induced by alkylating agents in v-Ha-ras-transformed cells due to defect in p53 function. 914 17

The radiation response was investigated in two lymphoblastoid cell lines (LBC) derived from families with heterozygous germ-line missense mutations of p53 at codon 282 (LBC282) and 286 (LBC286), and compared to cells with wt/wt p53(LBC-N). By gel retardation assays, we show that p53-containing nuclear extracts from irradiated LBC282 and LBC286 markedly differ in their ability to bind to a p53 DNA consensus sequence, the former generating a shifted band whose intensity is 30-40% that of LBC-N, the latter generating an almost undetectable band. Unlike LBC286, which fail to arrest in G1 after irradiation, LBC282 have an apparently normal G1/S checkpoint, as they arrest in G1, like LBC-N. While in LBC-N, accumulation of p53 and transactivation of p21WAF1 increase rapidly and markedly by 3 h after exposure to gamma-radiation, in LBC286 there is only a modest accumulation of p53 and a significantly delayed and quantitatively reduced transactivation of p21WAF1. Instead, in LBC282 while p53 levels rise little after irradiation, p21WAF1 levels increase rapidly and significantly as in normal LBC. Apoptotic cells present 48 h after irradiation account for 32% in LBC-N, 8-9% in LBC282 and 5-7% in LBC286, while the dose of gamma-radiation required for killing 50% of cells (LD50) is 400 rads, 1190 rads and 3190 rads, respectively, hence indicating that the heterozygous mutations of p53 at codon 282 affects radioresistance and survival, but not the G1/S cell cycle control. In all LBC tested, radiation-induced apoptosis occurs in all phases of the cell cycle and appears not to directly involve changes in the levels of the apoptosis-associated proteins bcl-2, bax and mcl-1. Both basal as well as radiation-induced p53 and p21WAF1 proteins are detected by Western blotting of FACS-purified G1, S and G2/M fractions from the three cell lines. p34CDC2-Tyr15, the inactive form of p34CDC2 kinase phosphorylated on Tyr15, is found in S and G2/M fractions, but not in G1. However, 24 h after irradiation, its levels in these fractions diminish appreciably in LBC-N but not in the radioresistant LBC286 and LBC282. Concomitantly, p34CDC2 histone H1 kinase activity increases in the former, but not in the latter cell lines, hence suggesting a role for this protein in radiation-induced cell death. Altogether, this study shows that, in cells harbouring heterozygous mutations of p53, the G1 checkpoint is not necessarily disrupted, and this may be related to the endogenous p53 heterocomplexes having lost or not the capacity to bind DNA (and therefore transactivate target genes). Radiation-induced cell death is not cell cycle phase specific, does not involve the regulation of bcl-2, bax or mcl-1, but is associated with changes in the phosphorylation state and activation of p34CDC2 kinase.
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PMID:Dissociation between cell cycle arrest and apoptosis can occur in Li-Fraumeni cells heterozygous for p53 gene mutations. 917 49

The effects of two types of selenium compounds on the expression levels of growth arrest and DNA damage-inducible (gadd) genes and on selected cell death genes were examined in mouse mammary MOD cells to test the hypothesis that the diversity of selenium-induced cellular responses to these compounds could be distinguished by unique gene expression patterns. Whereas the expression patterns of known cell death-related genes (bcl-2 and bax) were not informative with respect to the cellular response patterns upon exposure to selenium compounds, time-dependent and selenium species-specific induction patterns were observed for gadd34, gadd45 and gadd153 genes. It was also observed that the MOD cells expressed a truncated p53 transcript but no detectable immunoreactive P53 protein, indicating a null p53 phenotype. The fact that selenium compounds induced growth arrest and death of these cells and that these compounds induced specific patterns of expression of gadd genes indicates that these genes may mediate some selenium-induced cellular responses. The findings further imply that selenium compounds may be effective chemopreventive agents for human breast carcinogenesis, in which p53 mutations are frequent.
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PMID:Differential induction of growth arrest inducible genes by selenium compounds. 917 4

The effect of activated human K-ras on cell cycle proteins was studied by use of a stable MCF-7 transfectant expressing inducible activated K-ras under the control of a tetracycline (Tet)-responsive promoter. Induction of activated K-ras by Tet withdrawal accelerated cell growth and entry into S-phase. To understand the mechanism(s) by which activated K-ras exerts its effect on the cell cycle, expression of both cell cycle stimulatory proteins as well as cell cycle inhibitors was examined. Upon induction of activated K-ras, several cell cycle stimulators were up-regulated, including cyclins A, D3, and E, and the E2F family of transcription factors, which was accompanied by increased cyclin A-associated kinase activity and E2F transcriptional activity, respectively. Up-regulation of cyclin A occurred at the transcriptional level and in a serum-dependent manner. Furthermore, induction of activated K-ras down-regulated p27Kip1 and up-regulated p53. Up-regulation of p53 was correlated with enhanced p53 transactivation and accompanied by up-regulation of p21Waf1 and Gadd 45, two p53 effectors and negative cell cycle regulators. In addition, activated K-ras up-regulates bcl-2 but has no effect on bax or bcl-x expression. Taken together, these data indicate that activated K-ras affects the cell cycle by modulating both positive and negative cell cycle regulatory pathways.
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PMID:K-ras modulates the cell cycle via both positive and negative regulatory pathways. 919 Oct 59

The adenovirus E1A and SV40 large-T-antigen oncoproteins bind to members of the p300/CBP transcriptional coactivator family. Binding of p300/CBP is implicated in the transforming mechanisms of E1A and T-antigen oncoproteins. A common region of the T antigen is critical for binding both p300/CBP and the tumour suppressor p53, suggesting a link between the functions of p53 and p300. Here we report that p300/CBP binds to p53 in the absence of viral oncoproteins, and that p300 and p53 colocalize within the nucleus and coexist in a stable DNA-binding complex. Consistent with its ability to bind to p300, E1A disrupted functions mediated by p53. It reduced p53-mediated activation of the p21 and bax promoters, and suppressed p53-induced cell-cycle arrest and apoptosis. We conclude that members of the p300/CBP family are transcriptional adaptors for p53, modulating its checkpoint function in the G1 phase of the cell cycle and its induction of apoptosis. Disruption of p300/p53-dependent growth control may be part of the mechanism by which E1A induces cell transformation. These results help to explain how p53 mediates growth and checkpoint control, and how members of the p300/CBP family affect progression from G1 to the S phase of the cell cycle.
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PMID:Binding and modulation of p53 by p300/CBP coactivators. 919 65


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