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)

The biological functions of the tumor suppressor ING1 have been studied extensively in the past 5 years since it was cloned. Of the three alternatively spliced forms of ING1, p24(ING1) has been the focus of much of past research. Information on the other currently known isoforms, p47(ING1), p32(ING1), and p27(ING1), has been lacking. ING1 shares many biological functions with p53. It has been reported to mediate growth arrest, senescence, apoptosis, anchorage-dependent growth, and chemosensitivity. Some of these functions, such as cell-cycle arrest and apoptosis, have been shown to be dependent on the activity of both ING1 and p53 proteins. In this review, we will examine what is known about ING1 up to this point and clarify the cloning errors originating from the isolation of this gene.
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PMID:The tumor suppressor ING1: structure and function. 1146 Nov 12

The p33ING1 protein is a regulator of cell cycle, senescence, and apoptosis. Three alternatively spliced transcripts of p33ING1 encode p47ING1a, p33ING1b, and p24ING1c. We cloned an additional ING family member, p33ING2/ING1L. Unlike p33ING1b, p33ING2 is induced by the DNA-damaging agents etoposide and neocarzinostatin. p33ING1b and p33ING2 negatively regulate cell growth and survival in a p53-dependent manner through induction of G(1)-phase cell-cycle arrest and apoptosis. p33ING2 strongly enhances the transcriptional-transactivation activity of p53. Furthermore, p33ING2 expression increases the acetylation of p53 at Lys-382. Taken together, p33ING2 is a DNA damage-inducible gene that negatively regulates cell proliferation through activation of p53 by enhancing its acetylation.
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PMID:DNA damage-inducible gene p33ING2 negatively regulates cell proliferation through acetylation of p53. 1148 24

The effects of varying concentrations of linoleic acid and its transisomer linolelaidic acid on the proliferation the ultrastructural morphology of MOLT-4 T-lymphoblastic leukaemia cells were investigated. At 2 and 4 days after exposure to the fatty acids, the cells were counted by flow cytometry and observed by electron microscopy. After 4 days of treatment, linoleic acid was growth stimulatory at concentrations of 200 microM or less, but was markedly inhibitory at 400 microM. In contrast, linolelaidic acid stimulated proliferation at concentrations of 100 and 200 microM, but inhibited cell growth at 400 microM. Cells treated with 400 microM linoleic acid displayed dense accumulations of characteristic lipid globules and glycogen granules, and exhibited ultrastructural evidence of apoptosis including vacuolization, membrane blebbing and chromatin margination at the nuclear periphery. These results support the notion that geometrical isomerism and concentration of polyunsaturated fatty acids influence the proliferative destiny of cancer cells. Reverse transcription polymerase chain reaction (RT-PCR) analysis revealed a previously documented larger alternatively spliced p53 gene transcript in MOLT-4 cells cultured under reduced serum conditions. However, only wild-type p53 transcripts were amplified by RT-PCR of MOLT-4 cells exposed to phytohaemagglutinin, linoleic acid or linolelaidic acid.
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PMID:Linoleic and linolelaidic acids differentially influence proliferation and apoptosis of MOLT-4 leukaemia cells. 1148 1

Giant cell tumours of bone (GCT) are characterized histologically by multinucleated bone resorbing giant cells in a background of ovoid spindle-shaped mesenchymal cells. Current evidence suggests that the latter comprise the tumour element of these lesions, although there are basic questions as to the factors that contribute to the tumourigenesis and progression of GCT. The deregulation of the p53/MDM2 pathway is an important pathogenetic event in many tumour types, prompting us to assess the expression of MDM2 by the stromal cells and giant cells of GCT. Northern blot analysis demonstrated that most of the GCT samples examined expressed increased levels of MDM2 when compared to normal human bone cells. However, Southern analysis failed to show any evidence of MDM2 gene amplification in the same samples, suggesting that increased levels of MDM2 mRNA were not a direct result of gene amplification, but rather due to altered transcriptional regulation of MDM2 gene. By RT-PCR analysis we found that 7/8 giant cell tumours expressed strongly a short alternatively spliced variant of MDM2, whereas other tumours of bone and normal human bone cells expressed predominantly full length MDM2. Sequence analysis confirmed this variant to be MDM2-b, a variant previously reported to confer a transformed phenotype. Cell fractionation of the GCTs has shown that the MDM2-b splice variant was expressed exclusively in the stromal population, whereas the full length MDM2 was expressed in the multinucleated giant cells of these lesions. Overexpression of a green fluorescent protein-tagged MDM2-b in human embryonic kidney cells (HEK-293), demonstrated predominantly nuclear localisation. Immunoprecipitation studies showed that MDM2-b is unable to physically associate with the p53 tumour suppressor protein. These results are consistent with the hypothesis that the stromal cells comprise the tumour element in giant cell tumours of bone and we speculate that expression of the MDM2-b splice variant contributes to their transformed phenotype in a p53 independent manner.
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PMID:Expression of alternatively-spliced MDM2 transcripts in giant cell tumours of bone. 1149 46

We investigated the interaction between poly(ADP-ribose) polymerase-1 (PARP-1) and the product of the tumor suppressor gene p53 using two different approaches. In the first approach, we used primary and immortalized cells derived from wt and PARP-1 -/- mice. We examined whether PARP-1 deficiency would affect the expression of the wild-type (wt) p53 protein. The inactivation of the PARP-1 gene markedly affected the constitutive expression of the wt p53 protein. Interestingly, only the regularly spliced form of wt p53 was reduced to a barely detectable level in consequence to an approximately 8-fold shortening of its half-life, whereas the level of alternatively spliced p53 remained unchanged. Moreover, reconstitution of cells lacking the PARP-1 gene with the human counterpart restored the normal stability of the regularly spliced p53 protein. In the second approach, we performed experiments with c-Ha-ras transformed primary rat cells overexpressing the p53135val mutant alone or in combination with PARP-1. The advantage of this temperature sensitive p53135val mutant is its oncogenic character at 37 degrees C, connected with cytoplasmic localization of p53, and its tumor suppressor activity at 32 degrees C, accompanied by p53 translocation into the nucleus. No noticeable differences in proliferation and G1 accumulationwere observed between cells expressing p53135val with or without PARP-1. On the other hand, a comparison of the recovery of G1 arrested cells after a shift up to 37 degrees C for both cell lines showed dramatic differences in the kinetics. While cells expressing p53135val rapidly reached the characteristic S-phase level after a shift up to basal temperature, cells additionally expressing PARP-1 rested in G1 despite the temperature elevation. This coincided with exclusively cytoplasmic p53 protein in cells expressing p53135val and predominantly nuclear localization of p53 in p53135val +PARP-1 cells, as evidenced by immunostaining. Determination of the p53 level during the maintenance of cells at 32 degrees C revealed a marked decrease in the level of p53 in cells expressing p53135val alone, whereas in cells coexpressing PARP-1, the level of p53 remained largely unaffected. This indicates that the stability of wild-type p53 greatly differed between both cell lines. Furthermore, the inhibition of PARP-1 activity in G1 arrested cells by 3-aminobenzamide abolished its stabilizing effect on the wild-type p53 protein. Taken together, our results indicate that PARP-1 regulates the stability of the wt p53 protein and that its enzymatic activity is necessary for this stabilizing action.
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PMID:Poly(ADP-ribose) polymerase-1 regulates the stability of the wild-type p53 protein. 1154 35

The transforming potential of the MDM2 oncogene has been attributed to the overproduction of the protein. In order to investigate regulation of MDM2 expression in head and neck squamous cell carcinomas, we analysed MDM2 gene amplification, and mRNA and protein expression in tumour specimens from 62 patients, in cell lines, and in normal epithelium adjacent to tumours or obtained from healthy patients. Additionally, TP53-induced MDM2-P2 transcription was evaluated and compared with TP53 status. MDM2 gene amplification and mRNA over-expression is infrequent, 7 and 9%, respectively. The predominant transcript codes for full-length MDM2 protein (90kD) and the level of alternatively spliced forms is not significant. We show that only 47% of tumours exhibit MDM2 immunostaining in more than one third of the neoplastic cells, and thus more than half of the tumours display no or low levels of MDM2 protein. In contrast, MDM2 protein is always detectable in basal and parabasal cells of morphologically normal epithelium outside the invasively growing tumour, as well as in a normal uvula sample. Similarly, the total amount of MDM2 transcripts analysed by reverse transcriptase-polymerase chain reaction is reduced in tumour samples compared to normal tissues, essentially due to a decrease in P2 transcript levels. The relationship between mutated p53 status and low levels of MDM2 found in cell lines is also observed to a certain extent in primary tumour samples. Overall, there is a high frequency of TP53 mutation and under-expression of MDM2 in the head and neck tumours. Moreover, a significant association of decreased MDM2 expression is observed with advanced tumour stage and 3 years survival.
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PMID:Loss of MDM2 expression in human head and neck squamous cell carcinomas and clinical significance. 1159 71

In apoptosis the tumor suppressor p53 and the c-myc proto-oncogene are usually up-regulated. We show a novel alternative pathway of apoptosis in human primary cells that is mediated by transcriptionally dependent decreases in p53 and c-Myc and decreases in p21. This pathway is regulated by the alternatively spliced V region and high-affinity heparin-binding domain of fibronectin. Requirements for c-Myc, p53, and p21 signals in maintaining survival and for their decreases in inducing apoptosis were demonstrated by the ability of p53, c-Myc, and p21 ectopic expression to rescue this apoptotic phenotype, and the ability of p53-deficient and c-myc antisense conditions to trigger a faster rate of apoptosis.
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PMID:The heparin-binding domain and V region of fibronectin regulate apoptosis by suppression of p53 and c-myc in human primary cells. 1175 53

The development of human cancers is frequently associated with the silencing of the two major tumor suppressor pathways represented by retinoblastoma protein and p53. As the incidence of p53 mutations is significantly lower in Hodgkin's lymphoma than in other neoplasias, we investigated whether the malfunction of other proteins in this pathway could be responsible for its inactivation. Because the existence of nucleolar complexes between p14(ARF) and Hdm2 has been described as having a critical effect on p53 function by inhibiting its degradation, we analyzed the expression and subcellular localization of these proteins in 52 cases and in Hodgkin's cell lines. Two of four cell lines revealed loss of p14(ARF) expression secondary to gene promoter methylation, this being mutually exclusive with p53 mutations (1 of 4), illustrating the existence of selective pressure to inactivate the p53 pathway. The majority of Hodgkin's samples showed a strong nucleolar expression of p14(ARF) that was not associated with Hdm2. They also showed the existence of Hdm2/p53 complexes, and the absence of complexes containing either p14(ARF)/Hdm2 or p14(ARF)/p53. The different localization of Hdm2 (nucleoplasm) and p14(ARF) (nucleoli) observed in Hodgkin's tumors and cell lines is associated with the presence of short alternatively spliced transcripts of Hdm2 lacking the ARF-binding region and the nuclear export signal. The absence of these p14(ARF)/Hdm2 nucleolar complexes could be sufficient to inactivate the pathway and may explain the low frequency of p53 mutations in this tumor.
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PMID:Nucleolar p14(ARF) overexpression in Reed-Sternberg cells in Hodgkin's lymphoma: absence of p14(ARF)/Hdm2 complexes is associated with expression of alternatively spliced Hdm2 transcripts. 1183 77

Mdm2 is a p53-inducible phosphoprotein that negatively regulates p53 by binding to it and promoting its ubiquitin-mediated degradation. Alternatively spliced variants of Mdm2 have been isolated from human and mouse tumors, but their roles in tumorigenesis, if any, remain elusive. We cloned six alternatively spliced variants of Mdm2 from E(mu)-Myc-induced mouse lymphomas, all of which lacked the NH(2)-terminal p53-binding domain but conserved the remainder of the Mdm2 protein. Enforced expression of full-length Mdm2 in primary mouse embryo fibroblasts or bone marrow-derived, interleukin 7-dependent pre-B cells accelerated their proliferation, whereas unexpectedly, overexpression of truncated Mdm2 isoforms inhibited their growth. Truncated variants were active as inhibitors whether they localized predominantly to the nucleus or cytoplasm. Despite the absence of the p53-binding domain, growth inhibition remained strictly p53 dependent (but not p19(Arf) dependent) and could be overcome by full-length Mdm2. The intact RING finger domain at the Mdm2 COOH terminus (amino acids 399-489) was necessary and sufficient for growth inhibition by truncated Mdm2 proteins and could physically interact with either the RING finger domain or central acidic region of full-length Mdm2. However, such interactions do not inhibit Mdm2 E3 ubiquitin ligase activity in vitro using p53 as a substrate. Expression of growth-inhibitory Mdm2 isoforms in tumors remains an enigma.
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PMID:The RING domain of Mdm2 can inhibit cell proliferation. 1186 7

The mouse stress-induced protein (SIP) mRNA is activated in the pancreas with acute pancreatitis and in several cell lines in response to various stress agents. The SIP gene is alternatively spliced, generating two proteins (SIP'8 and SIP27). Both proteins, located mainly in the nucleus, promote cell death when overexpressed in vitro. We show that induction by stress agents of the expression of SIP18 and SIP27 mRNAs, observed in human- and mouse-derived cell lines, is absent from cells with deleted, mutated or inactive p53, suggesting that regulation of SIP gene expression is dependent on p53. That hypothesis is consistent with the presence of a functional p53-response element within the promoter region of the mouse SIP gene and confirmed by the induction of SIP mRNA expression in mouse embryo fibroblasts upon activation of a p53-dependent pathway by transfection with rasV12 or rasV12/E1A. In conclusion, SIP being a proapoptotic gene induced through p53 activation could be a stress-induced gene with antitumour properties.
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PMID:P53-dependent expression of the stress-induced protein (SIP). 1206 65

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