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)

TGF-beta induces growth suppression and apoptosis of various types of cells, but supports fibroblast growth. We previously isolated TIAF1 (TGF-beta1-induced antiapoptotic factor 1), which protects murine L929 fibroblasts from TNF cytotoxicity. Here, we show that TIAF1 induced growth inhibition and apoptosis of monocytic U937 and other types of cells. In contrast, like TGF-beta1, TIAF1 supported transforming growth of L929 fibroblasts. TIAF1 increased the expression of p53, Cip1/p21, and Smad proteins; suppressed ERK phosphorylation; and altered TGF-beta1-mediated Smad2/3 phosphorylation in U937 cells. Antisense TIAF1 mRNA significantly enhanced the proliferation of mink lung Mv1Lu epithelial cells. Together, these observations indicate that TIAF1 participates in the TGF-beta-mediated growth regulation.
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PMID:TIAF1 participates in the transforming growth factor beta1--mediated growth regulation. 1281 35

SINK is a p65-interacting protein that inhibits PKAc-induced phosphorylation of p65 and NF-kappaB transcriptional competence. We identified a SINK-homologous serine/threonine kinase SHIK. SHIK is ubiquitously expressed and is localized in the cytoplasm. Overexpression of SHIK inhibits TNF-triggered NF-kappaB activation in reporter gene assays. Overexpression of SHIK also inhibits p53-mediated transcription in reporter gene assays, while a point mutant (D197-->I) of SHIK potentiates p53-mediated transcription. Our findings suggest that SHIK is a negative regulator of NF-kappaB- and p53-mediated gene transcription.
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PMID:Identification of a novel serine/threonine kinase that inhibits TNF-induced NF-kappaB activation and p53-induced transcription. 1367 39

PML is a tumor suppressor implicated in leukemia and cancer pathogenesis. PML epitomizes a multiprotein nuclear structure, the PML-nuclear body (PML-NB), whose proper formation and function depends on PML. Studies in knockout (KO) mice and cells unraveled an essential pleiotropic role for PML in multiple p53-dependent and -independent apoptotic pathways. As a result, Pml(-/-) mice and cells are protected from apoptosis triggered by a number of stimuli such as ionizing radiation, interferon, ceramide, Fas and TNF. It is becoming apparent that PML and the PML-NB act as molecular hubs for the induction and/or reinforcement of programmed cell death through a selective and dynamic regulation of proapoptotic transcriptional events. In addition, recent observations propose a role for PML in checkpoint responses upon DNA damage. Moreover, PML and the PML-NB have also been implicated in the control of genomic stability and DNA repair. Here, we will discuss the molecular mechanisms by which PML regulates these processes and the implication of these findings for cancer pathogenesis and therapy.
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PMID:Role of PML and the PML-nuclear body in the control of programmed cell death. 1466 83

TIAF1 is a TGF-beta 1-induced factor that protects L929 fibroblasts from TNF-mediated apoptosis. In contrast, overexpressed TIAF1 induces growth inhibition and apoptosis of monocytic U937 and various nonfibroblast cells. TIAF1-mediated apoptosis of U937 cells involves upregulation of p53, p21, and Smad2/4, but downregulation of ERK phosphorylation. To determine whether p53 and TIAF1 functionally interact in regulating cell death, ectopic TIAF1 and p53 were shown to induce apoptosis of U937 cells in both synergistic and antagonistic manners. At optimal levels both TIAF1 and p53 mediated apoptosis cooperatively. Also, both proteins suppressed adherence-independent growth of L929 cells. In contrast, initiation of apoptosis by overexpressed TIAF1 was blocked by low doses of p53, and vice versa. Furthermore, ectopic p53 blocked an ongoing apoptosis in U937 cells stably expressing TIAF1. Yeast two-hybrid analyses failed to demonstrate the binding of p53 with TIAF1, suggesting an unidentified protein that links the p53/TIFA1 interaction. Suppression of TIAF1 expression by siRNA could not inhibit Ser15 phosphorylation in p53 in response to UV and etoposide. However, nuclear translocation of these Ser15-phosphorylated p53 was significantly reduced in TIAF1-silenced cells. Taken together, TIAF1 and p53 functionally interact in regulating apoptosis, and TIAF1 is likely to participate in the nuclear translocation of activated p53.
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PMID:TIAF1 and p53 functionally interact in mediating apoptosis and silencing of TIAF1 abolishes nuclear translocation of serine 15-phosphorylated p53. 1496 74

The mechanisms underlying the autonomous accumulation of malignant B cells remain elusive. We show in this study that non-Hodgkin's lymphoma (NHL) B cells express B cell-activating factor of the TNF family (BAFF) and a proliferation-inducing ligand (APRIL), two powerful B cell-activating molecules usually expressed by myeloid cells. In addition, NHL B cells express BAFF receptor, which binds BAFF, as well as transmembrane activator and calcium modulator and cyclophilin ligand interactor (TACI) and B cell maturation Ag (BCMA), which bind both BAFF and APRIL. Neutralization of endogenous BAFF and APRIL by soluble TACI and BCMA decoy receptors attenuates the survival of NHL B cells, decreases activation of the prosurvival transcription factor NF-kappaB, down-regulates the antiapoptotic proteins Bcl-2 and Bcl-x(L), and up-regulates the proapoptotic protein Bax. Conversely, exposure of NHL B cells to recombinant or myeloid cell-derived BAFF and APRIL attenuates apoptosis, increases NF-kappaB activation, up-regulates Bcl-2 and Bcl-x(L), and down-regulates Bax. In some NHLs, exogenous BAFF and APRIL up-regulate c-Myc, an inducer of cell proliferation; down-regulate p53, an inhibitor of cell proliferation; and increase Bcl-6, an inhibitor of B cell differentiation. By showing that nonmalignant B cells up-regulate BAFF and APRIL upon stimulation by T cell CD40 ligand, our findings indicate that NHL B cells deregulate an otherwise physiological autocrine survival pathway to evade apoptosis. Thus, neutralization of BAFF and APRIL by soluble TACI and BCMA decoy receptors could be useful to dampen the accumulation of malignant B cells in NHL patients.
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PMID:Lymphoma B cells evade apoptosis through the TNF family members BAFF/BLyS and APRIL. 1497 35

Peg3 is an imprinted gene exclusively expressed from the paternal allele. It encodes a C(2)H(2) type zinc-finger protein and is involved in maternal behavior. It is important for TNF-NFkB signaling and p53-mediated apoptosis. To investigate the imprinting mechanism and gene expression of Peg3 and its neighboring gene(s), we used a 120 kb Peg3-containing BAC clone to generate transgenic mice. The BAC clone contains 20 kb of 5' and 80 kb of 3' flanking DNA, and we obtained three transgenic lines. In one of the lines harboring one copy of the transgene, Peg3 was imprinted properly. In the other two lines, Peg3 was expressed upon both maternal and paternal transmission. Imprinted expression was linked to the differential methylation of a region (DMR) upstream of the Peg3 gene. A second, maternally expressed gene, Zim1, present on the transgene was expressed irrespective of parental inheritance in all lines. These data suggest that, similar to other imprinted genes within domains, Peg3 and Zim1 are regulated by one or more elements lying at a distance from the genes. The imprinting of Peg3 seen in one line may reflect the presence of a responder sequence. Concerning the expression of the Peg3 transgene, we detected appropriate expression in the adult brain. However, this was not sufficient to rescue the maternal behavior phenotype seen in Peg3 deficient animals.
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PMID:Analysis of imprinted murine Peg3 locus in transgenic mice. 1511 6

Opposing effects of inflammation on cancer have been described. Acute inflammation usually counteracts cancer development, while chronic inflammation promotes cancer development. Just as inactivation of the p53 pathway may be universal in the neoplasia, the activation of the NFkappaB pathway may, conversely, be frequent in carcinogenesis, and a requirement for inflammation and promotion. TNF, a key pro-inflammatory cytokine when binding to TNF receptor 1 (TNFR1), may cause survival or apoptosis, dependent on biochemical modifications that determine the type of complex formed; one complex causes NFkappaB activation and gives a cell survival signal (pro-oncogenic), while the other (modified) complex recruits caspases and causes apoptosis (anti-oncogenic). Fas-ligand (FasL)-Fas interaction can also result in opposing effects on carcinogenesis due to similar mechanisms. While IL-6 counteracts apoptosis and can promote cancer development, interferons can increase DNA repair and stabilize p53, thereby be anti-oncogenic.
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PMID:Inflammation as a tumor promoter in cancer induction. 1548 36

Rheumatoid arthritis is characterised by the interaction of multiple mediators, among the most important of which are cytokines. In recent years, extensive data demonstrates a pivotal role for one cytokine, macrophage migration inhibitory factor (MIF), in fundamental events in innate and adaptive immunity. MIF has now been demonstrated to be involved in the pathogenesis of many diseases, but in the case of RA the evidence for a role of MIF is very strong. MIF is abundantly expressed in the serum of RA patients, and in RA synovial tissue where it correlates with disease activity. MIF induces synoviocyte expression of key proinflammatory genes including TNF, IL-1, IL-6, IL-8, cPLA2, COX2 and MMPs. MIF also regulates the function of endothelial cells and B cells. Moreover, MIF is implicated in the control of synoviocyte proliferation and apoptosis via direct effects on the expression of the tumor suppressor protein p53. In multiple rat and mouse models of RA, anti-MIF antibodies or genetic MIF deficiency are associated with significant inhibition of disease. MIF -/- mice further demonstrate increases in synovial apoptosis. That the human Mif gene is encoded by different functional alleles in subjects with inflammatory disease also provides evidence for the role of MIF in RA. The mechanism of action of MIF is becoming better understood. MIF appears to interact with cell surface CD74, with consequent activation of MAP kinases but possibly not NFkappaB intracellular signal transduction. This apparent selectivity may be implicated in the ability of MIF to antagonise the effects of glucocorticoids. As MIF expression is induced by glucocorticoids, inhibition of its antagonistic effects may permit enhanced therapeutic effect of glucocorticoids, or "steroid sparing". To date there are no clinical trials of MIF antagonism in any disease, but exploitation of antibody, soluble receptor, or small molecule approaches enabled by the unique crystal structure of MIF, may soon lead to the ability to test in the clinic the importance of this cytokine in human RA.
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PMID:Macrophage migration inhibitory factor in rheumatoid arthritis. 1557 36

TNF-related apoptosis-inducing ligand (TRAIL) is a member of the TNF gene superfamily, which induces apoptosis through engagement of death receptors. TRAIL is unusual as compared to the other cytokines of this family, as it interacts with a complex system of receptors consisting of two pro-apoptotic death receptors (TRAIL-R1 and TRAIL-R2) and three decoy receptors (TRAIL-R3, TRAIL-R4 and osteoprotegerin). Moreover, with respect to other members of the TNF superfamily, such as CD95L and TNF-alpha, TRAIL has generated great interest as a potential tumor-specific cancer therapeutic because as a stable soluble trimer it selectively induces apoptosis in many transformed cells but not in normal cells. Of note, TRAIL cytotoxicity is at least partially independent of the major systems involved in resistance to chemotherapy, such as p53 wild-type function and multidrug resistance (MDR) genes. Since one fundamental problem of most cancers is the development of multiple mechanisms of resistance, which progressively reduce or suppress the therapeutic efficacy of conventional chemotherapy, new therapeutic approaches that either restore the pro-apoptotic activity of chemotherapeutic drugs or by-pass the mechanisms of resistance are highly desirable. This review will focus on the potential of TRAIL for its application in the therapy of hematological malignancies, used either alone or in combination with chemotherapy. The scenario emerging from the literature is that the treatment and management of hematological malignancies will require the rational combination of TRAIL plus conventional or new drugs in a regimen that would optimize the anti-neoplastic activity in malignant cells resistant to chemotherapy through restoration of the pro-apoptotic activity of TRAIL.
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PMID:TNF-related apoptosis-inducing ligand (TRAIL): a potential candidate for combined treatment of hematological malignancies. 1557 63

Baculoviral inhibitor of apoptosis repeat-containing (Birc)6 gene/BIRC6 (Bruce/APOLLON) encodes an inhibitor of apoptosis and a chimeric E2/E3 ubiquitin ligase in mammals. The physiological role of Bruce in antiapoptosis is unknown. Here, we show that deletion of the C-terminal half of Bruce, including the UBC domain, causes activation of caspases and apoptosis in the placenta and yolk sac, leading to embryonic lethality. This apoptosis is associated with up-regulation and nuclear localization of the tumor suppressor p53 and activation of mitochondrial apoptosis, which includes up-regulation of Bax, Bak, and Pidd, translocation of Bax and caspase-2 onto mitochondria, release of cytochrome c and apoptosis-inducing factor, and activation of caspase-9 and caspase-3. Mutant mouse embryonic fibroblasts are sensitive to multiple mitochondrial death stimuli but resistant to TNF. In addition, eliminating p53 by RNA interference rescues cell viability induced by Bruce ablation in human cell line H460. This viability preservation results from reduced expression of proapoptotic factors Bax, Bak, and Pidd and from prevention of activation of caspase-2, -9, and -3. The amount of second mitochondrial-derived activator of caspase and Omi does not change. We conclude that p53 is a downstream effector of Bruce, and, in response to loss of Bruce function, p53 activates Pidd/caspase-2 and Bax/Bak, leading to mitochondrial apoptosis.
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PMID:The Birc6 (Bruce) gene regulates p53 and the mitochondrial pathway of apoptosis and is essential for mouse embryonic development. 1564 Mar 52

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