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)

Somatostatin (SST) exerts direct antiproliferative effects in tumor cells, triggering either growth arrest or apoptosis. The cellular actions of SST are transduced through a family of five distinct somatostatin receptor subtypes (SSTR1-5). Whereas growth inhibition has been reported to follow stimulation of protein tyrosine phosphatase via SSTR2 or inhibition of Ca2+ channels via SSTR5 in heterologous expression systems, the subtype selectivity for signaling apoptosis has not been investigated. The tumor suppressor protein p53 and the protooncogene product c-Myc regulate cell cycle progression (growth factors present) or apoptosis (growth factors absent). The p53-induced G1 arrest requires induction of p21, an inhibitor of cyclin-dependent kinases, whereas apoptosis requires induction of Bax. c-Myc is capable of abrogating p53-induced G1 arrest by interfering with the inhibitory action of p21 on cyclin-dependent kinases. We have, therefore, investigated the regulation of p53, p21, c-Myc, and Bax and cellular apoptosis in relation to cell cycle progression in CHO-K1 cells stably expressing individual human SSTR1-5. We demonstrate that apoptosis is signaled uniquely through human SSTR3 and is associated with dephosphorylation-dependent conformational change in wild-type (wt) p53 as well as induction of Bax. The induction of wt p53 occurs rapidly and precedes the onset of apoptosis. We show that the increase in wt p53 is not associated with the induction of p21 or c-Myc when octreotide-induced apoptosis becomes evident, suggesting that such apoptosis does not require G1 arrest and is not c-Myc dependent. These findings provide the first evidence for hormonal induction of wt p53-associated apoptosis via G protein-coupled receptor in a subtype-selective manner.
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PMID:Subtype-selective induction of wild-type p53 and apoptosis, but not cell cycle arrest, by human somatostatin receptor 3. 896 Dec 77

To better understand the effects of p53 on the process of DNA damage-induced cell death, we examined the influence of p53 status on the rate of the onset and the overall extent of cell death induced by doxorubicin. We performed this study with Rat-1 fibroblasts, with Rat-1/myc cells which constitutively express c-Myc, and with Rat-1/myc/p53His175 cells derived from Rat-1/myc cells, which, in addition, express the full-length dominant-negative p53His175 mutant gene. The p53His175 mutant suppresses the transactivation function of endogenous p53 in these cells. In contrast to the parental Rat-1 cells, which exhibited only low levels of apoptosis within the first 24 h of treatment with 0.1 to 1 microM doxorubicin, similarly treated Rat-1/myc cells underwent massive and rapid apoptosis. Introduction of p53His175 into Rat-1/myc cells reversed this effect, indicating that Myc-accelerated doxorubicin-induced apoptosis requires functional p53. However, when the overall extent of cell death was measured using clonogenic assays, we found that greater than 90% of cells did not survive upon a 24-h pretreatment with doxorubicin at a concentration as low as 0.1 microM. Moreover, the effect of doxorubicin on all three cell lines was similar, irrespective of their p53 or c-Myc status. Taken together, our experiments indicate that: (a) constitutive expression of c-Myc accelerates the onset of doxorubicin-induced apoptosis in Rat-1 fibroblasts; (b) wild-type p53 function is necessary for this acceleration; and (c) neither overexpression of c-Myc nor the p53 status influences the overall extent of doxorubicin-induced cell death.
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PMID:p53 status affects the rate of the onset but not the overall extent of doxorubicin-induced cell death in rat-1 fibroblasts constitutively expressing c-Myc. 898 61

Apoptotic cell death is induced in mature cycling T cells upon ligation of the Ag-specific TCR. This process is essential for the maintenance of homeostasis in the immune system, as it is capable of down-regulating ongoing immune responses. The analysis of the mechanism underlying TCR-induced programmed cell death has focused the attention of many scientists recently. In this regard, several recent reports have implicated Fas/Fas-ligand molecules as the final mediators of this process. Several other gene products have been implicated in the control of apoptosis (as Bcl-2, p53, and c-Myc); however, no information was available in the early signaling molecules that trigger this phenomena. The results presented in this work indicate that pp56(lck) src family kinase is actually required for the TCR to trigger cell death in mature cycling T cells. In fact, while inhibition of pp56(lck) expression with antisense oligonucleotides blocked TCR-induced apoptosis, pharmacologic inhibition of phosphatidylinositol 3-kinase activity had no effect. Accordingly, ligation of the Ag receptor in a cell line defective for pp56(lck) expression was unable to induce apoptosis, although it induced cellular stimulation, as measured by the expression of CD69. In addition, we show in this work that expression of constitutively active pp56(lck) mutants, but not pp59(fyn) mutants, in the absence of any other TCR-derived signal, is sufficient to induce apoptosis not only in transformed, but also in normal cycling T cells. Finally, evidence is presented indicating that a mechanism through which pp56(lck) regulates TCR-induced apoptosis in mature cycling T cells is by controlling Fas-ligand expression.
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PMID:Lck is necessary and sufficient for Fas-ligand expression and apoptotic cell death in mature cycling T cells. 912 69

Methylprednisolone (MP) and related corticosteroids are a fundamental part of regimens used to treat lymphoma and leukemia. In many of these malignancies, oncogenic activation of C-MYC and BCL2 is seen. Abnormalities of the tumor suppressor p53, which exerts growth-suppressing and apoptosis-enhancing functions through the transcriptional regulation of downstream genes including CDKN1, GADD45, and BCL2, are also often found. The goal was to determine the modulation of expression of the oncogenes (C-MYC and BCL2), the p53 pathway described above, and the apoptosis marker TGF-beta 1 in the human Raji lymphoma following MP treatment. Raji xenografts were grown in nude mice and growth curves characterized by sequential measurement. Mice were treated daily for 8 days with MP. Tumors were harvested untreated, or at 1 or 8 days after cessation of MP treatment, and the RNA was extracted. RT-PCR was used to determine the level of mRNA expression of the genes. Tumor growth was greatly reduced in the MP-treated mice. Gene expression levels for C-MYC and BCL2 were reduced at 1 day following MP and approached control levels 8 days after MP treatment. Expression levels of p53, CDKN1, and GADD45 were moderately and coordinately decreased at 1 day after cessation of MP treatment and remained repressed a week later. TGF-beta 1 exhibited no change in expression levels. These results suggest that decreased expression of C-MYC and BCL2 may play a role in the molecular events that initiate and are responsible for the growth inhibition of Raji lymphoma xenografts by MP.
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PMID:Decreased C-MYC and BCL2 expression correlates with methylprednisolone-mediated inhibition of Raji lymphoma growth. 916 90

The c-Myc protein strongly stimulates cellular proliferation, inducing cells to exit G0/G1 and enter the cell cycle. At a molecular level, Myc prevents growth arrest and drives cell cycle progression through the transcriptional regulation of Myc-target genes. Expression of the growth arrest and DNA damage inducible gene 45 (gadd45) is elevated in response to DNA damaging agents, such as ionizing radiation via a p53-dependent mechanism, upon nutrient deprivation, or during differentiation. Gadd45 holds a vital role in growth arrest as ectopic expression confers a strong block to proliferation. Exposure of quiescent cells to mitogen stimulates a rapid increase in c-Myc expression which is followed by the subsequent reduction in gadd45 expression. The kinetics of these two regulatory events suggest that Myc suppresses the expression of gadd45, contributing to G0/G1 phase exit of the cell cycle. Indeed, ectopic Myc expression in primary and immortalized fibroblasts results in the suppression of gadd45 mRNA levels, by a mechanism which is independent of cell cycle progression. Using an inducible MycER system, rapid suppression of gadd45 mRNA is first evident approximately 0.5 h following Myc activation. The reduction in gadd45 mRNA expression occurs at the transcriptional level and is mediated by a p53-independent pathway. Moreover, Myc suppression and p53 induction of gadd45 following exposure to ionizing radiation are non-competitive co-regulatory events. Myc suppression of gadd45 defines a novel pathway through which Myc promotes cell cycle entry and prevents growth arrest of transformed cells.
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PMID:Myc represses the growth arrest gene gadd45. 919 Aug 99

Deregulated overexpression of c-Myc (Myc) confers susceptibility to apoptosis in several cell types, but the molecular regulation of these processes has not been well established. Here we have characterized several molecular changes that may modulate Myc-dependent apoptosis. Ectopic overexpression of Myc in both Rat1 fibroblasts and human osteosarcoma cells causes a dramatic increase of cellular p53 mRNA and protein, and this induction of p53 correlates with apoptosis triggered by withdrawal of serum. Stable transfection of a wild-type human p53 gene into Myc-transformed cells further potentiates apoptosis. Anticancer agents vinblastine and nocodazole also induce apoptosis in Myc-transformed Rat1 fibroblasts but are cytostatic to the same cells without Myc overexpression. We demonstrate that induction of Myc-dependent apoptosis in these cells is specifically associated with an activation of p46 c-Jun N-terminal kinase/stress-activated protein kinase (JNK/SAPK) activity, whereas this JNK/SAPK activation is absent in stress-treated cells without Myc overexpression. Moreover, overexpression of the Mdm-2 gene in Rat1-myc cells significantly inhibits apoptosis induced by low serum but has little effect on apoptosis triggered by chemotherapeutic drugs. Interestingly, differential inhibition by Mdm-2 paralleled differential activation of p46 JNK/SAPK. Thus, our data support a functional involvement of p53 in Myc-dependent apoptosis and implicate potential regulatory roles for JNK/SAPK and Mdm-2 pathways in the regulation of apoptosis in Myc-transformed tumor cells.
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PMID:Regulation of Myc-dependent apoptosis by p53, c-Jun N-terminal kinases/stress-activated protein kinases, and Mdm-2. 921 67

DNA-dependent protein kinase (DNA-PK) has been known to catalyze phosphorylation of a number of regulatory factors involved in DNA replication and transcription such as simian virus 40 T antigen, p53, c-Myc, Sp1, and RNA polymerase II (Pol II). We examined the possibility that DNA-PK phosphorylates the general transcription factors TATA-binding protein (TBP) and transcription factor (TF) IIB, which play key roles in the formation of transcription initiation complex with Pol II. By using a highly purified preparation of DNA-PK from Raji cells, both TBP and TFIIB were shown to be phosphorylated in vitro by DNA-PK. We then investigated the effect of the phosphorylation of these factors on Pol II basal transcription. Stepwise analysis of preinitiation complex formation by electrophoretic mobility shift assay revealed that the phosphorylation of TBP and TFIIB by DNA-PK did not affect the formation of promoter (P)-TBP and P-TBP-TFIIB complexes but synergistically stimulated the formation of P-TBP-TFIIB-TFIIF-Pol II complex. Similarly, combination of the phosphorylated TBP and TFIIB synergistically stimulated Pol II basal transcription from adenovirus major late promoter. These observations suggest that DNA-PK could positively regulate the Pol II basal transcription by phosphorylating TBP and TFIIB.
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PMID:Phosphorylation of human general transcription factors TATA-binding protein and transcription factor IIB by DNA-dependent protein kinase--synergistic stimulation of RNA polymerase II basal transcription in vitro. 928 44

The loss of p53 tumor suppressor functions results in genetic instability, characteristically associated with changes in chromosome ploidy and gene amplification. In vivo, we find that cells from various organs of 4 to 6-week old p53-nullizygous (p53-/-) mice display aneuploidy and frequent gene amplification as well as evidence for apoptosis. Regardless of tissue types, many p53-/- cells contain multiple centrosomes and abnormally formed mitotic spindles. Thus, chromosome instability in vivo may be associated with abnormal centrosome amplification. Moreover, we observed a significant increase in the number of cells overexpressing c-Myc in p53-/- mice. Consistent with previous studies showing that c-Myc overexpression is associated with gene amplification in vitro, many of the p53-/- cells exhibited, in the same cell, c-Myc overexpression and amplified c-myc, dihydrofolate reductase (DHFR), and carbamoyl-phosphate synthetase-aspartate transcarbamoyl-dihydroorotase (CAD) genes. Furthermore, apoptosis was frequently observed in cells isolated from p53-/- mice. The apoptotic cells contained abnormally amplified centrosomes, displayed aneuploidy, high levels of c-Myc expression, as well as gene amplification. These results indicate that a high number of aberrant cells is eliminated by p53-independent pathways in vivo.
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PMID:Genomic instability and apoptosis are frequent in p53 deficient young mice. 931 97

Butyrate, a physiologically occurring agent, has been reported to decrease constitutively high expressed p53 levels in transformed cells. To elucidate whether butyrate also inhibits DNA-damage-induced p53 response we investigated the effects of butyrate and the anticancer drug mitomycin C in normal C3H10T1/2 cells harbouring wild-type p53. In comparison with p53-deficient fibroblasts we examined p53 protein level, cell cycle arrest, differentiation, and apoptosis. Butyrate induced G1 phase arrest, differentiation, and p53-independent increase in p21(waf1/cip1) protein. Moreover, butyrate induced p53-independent apoptosis, which was, as well as p53-mediated apoptosis, associated with a dose-dependent increase in Bax and c-Myc protein. Pretreatment with butyrate repressed dose-dependently mitomycin-C-induced p53 accumulation and interfered with p53-dependent cell cycle arrest. Butyrate further partially inhibited p53-mediated apoptosis, but low doses of butyrate were more effective than higher concentrations. This was reflected in an enhanced decrease in c-Myc and Bax protein in response to mitomycin C with low concentrations of butyrate. Our data indicate that the differentiation stimulus of butyrate, in association with p21(waf1/cip1) induction, and apoptosis, may explain antineoplastic effects of butyrate. Co-carcinogenic features of butyrate may result from inhibition of p53-mediated DNA damage response.
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PMID:Butyrate modulates DNA-damage-induced p53 response by induction of p53-independent differentiation and apoptosis. 933 15

Upon activation, cell surface death receptors, Fas/APO-1/CD95 and tumor necrosis factor receptor-1 (TNFR-1), are attached to cytosolic adaptor proteins, which in turn recruit caspase-8 (MACH/FLICE/Mch5) to activate the interleukin-1 beta-converting enzyme (ICE)/CED-3 family protease (caspase) cascade. However, it remains unknown whether these apoptotic proteases are generally involved in apoptosis triggered by other stimuli such as Myc and p53. In this study, we provide lines of evidence that a death protease cascade consisting of caspases and serine proteases plays an essential role in Myc-mediated apoptosis. When Rat-1 fibroblasts stably expressing either s-Myc or c-Myc were induced to undergo apoptosis by serum deprivation, a caspase-3 (CPP32)-like protease activity that cleaves a specific peptide substrate, Ac-DEVD-MCA, appeared in the cell lysates. Induction of s-Myc- and c-Myc-mediated apoptotic cell death was effectively prevented by caspase inhibitors such as Z-Asp-CH2-DCB and Ac-DEVD-CHO. Furthermore, exposing the cells to a serine protease inhibitor, 4-(2-aminoethyl)benzenesulfonyl fluoride (AEBSF), also significantly inhibited s-Myc- and c-Myc-mediated apoptosis and the appearance of the caspase-3-like protease activity in vivo. However, AEBSF did not directly inhibit caspase-3-like protease activity in the apoptotic cell lysates in vitro. Together, these results indicate that caspase-3-like proteases play a critical role in both s-Myc- and c-Myc-mediated apoptosis and that caspase-3-like proteases function downstream of the AEBSF-sensitive step in the signaling pathway of Myc-mediated apoptosis.
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PMID:A functional role for death proteases in s-Myc- and c-Myc-mediated apoptosis. 934 38

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