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)

We have shown previously that mitotic spindle inhibitors allow the c-Myconcoprotein to uncouple mitosis from DNA synthesis, resulting in the acquisition of tetraploidy. This can also occur in the absence of spindle inhibition if c-Myc deregulation is combined with inactivation of the p53 tumor suppressor. Under these conditions, cyclin B1 protein is induced but retains its normal cell cycle regulation. We now show that the cyclin B1 promoter is directly but oppositely regulated by c-Myc and p53. Enforced expression of cyclin B1 also induces tetraploidy, either after mitotic spindle inhibition or in the absence of such inhibition if cyclin B1 is coexpressed with c-Myc. Cyclin B1 represents a new class of c-Myc target genes that is also regulated by p53. It is also the first identified downstream effector of c-Myc able to produce the chromosomal instability that characterizes virtually all tumor cells.
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PMID:Inverse regulation of cyclin B1 by c-Myc and p53 and induction of tetraploidy by cyclin B1 overexpression. 1152 45

Many tumors show a mutant or inactive tumor suppressor p53 (TP53) status, and TP53 in the tumor-carrying human papillomavirus (HPV) may be dysfunctional because of inhibition by the viral protein HPV E6. Molecular mechanisms underlying radiation responses and the radiation-induced resistant phenotype in the TP53-inactive tumor have not been well investigated. In the present study, using a human keratinocyte line (HK18) with TP53 inhibited by HPV18 infection, we demonstrated that nuclear factor (NF)-kappaB is responsible for a major portion of the radioresistance observed in a cell population (HK18-IR) derived from HK18 cells by fractionated ionizing radiation (FIR; 2 Gy/fraction; total dose, 60 Gy). HK18-IR cells showed increased clonogenic radioresistance [dose-modifying factor (DMF), 1.47], reduced apoptotic response, and a shortened radiation-induced growth delay. Both DNA-binding and reporter transcriptional activity of NF-kappaB, but not of TP53, were activated in HK18-IR cells compared with the parental HK18 cells; this activation was observed both before and after a single dose of 5 Gy. To determine target genes responsive to NF-kappaB activation, DNA microarray profiles for 588 genes were matched in HK18-IR cells compared with those in HK18 cells; the paired comparisons were made for basal levels before irradiation or for levels 24 h after 5 Gy. For 25 genes, a 2- to 5-fold up-regulation in HK18-IR cells relative to HK18 cells was similar when comparisons were made for basal levels or for levels after irradiation. Included in the approximately 4% of genes activated in HK18-IR cells, were six genes (Cyclin B1, Cyclin D1, HIAP, BAG-1, TTF, and fibronectin) putatively linked to NF-kappaB regulation. We then measured the expression of this group of FIR-regulated genes in HK18-IR cells expressing a dominant-negative mutant IkappaB (mIkappaB) that inhibited NF-kappaB activation. Clonogenic radioresistance was reduced greatly in the mIkappaB transfectants (DMF, 1.18 and 1.10, respectively, at 10% and 1% of isosurvival for mIkappaB transfectants compared with 1.47 and 1.45, respectively, for vector control transfectants). Expressions of Cyclin B1, Cyclin D1, and HIAP were down-regulated by the inhibition of NF-kappaB. These results suggest that transcription of NF-kappaB and a group of NF-kappaB target genes are involved in radioresistance in FIR-treated tumor cells with inactive TP53.
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PMID:Activation of nuclear factor kappaB in radioresistance of TP53-inactive human keratinocytes. 1186 6

Mutation of four lysine residues in the p53 C-terminal domain inhibits MDM2-dependent ubiquitination of p53 and alters its subcellular distribution. This implies that modification (such as acetylation and phosphorylation) of amino acid residues in p53 C-terminal domain, regulate the biological functions of p53. In this study, we demonstrated that p53 with lysine residues 372, 373, 381, and 382 mutated to alanine (the A4 mutant) retained the transactivation activity of wild-type p53, although the transactivation activity of p21 promoter by the A4 mutant was slightly reduced. The inducible expression of wild-type p53 and the A4 mutant in H1299 cells caused growth inhibition due to cell-cycle arrest. Consistent with previous studies, the expression of wild-type p53 elicited G(1) and G(2) arrests. However, the cells expressing the A4 mutant underwent G(1) arrest but not G(2) arrest. Cyclin B1-associated kinase activity was reduced in cells expressing wild-type p53 but not A4, when the cells underwent G(2) arrest. This suggests that modification of the p53 C-terminal domain might inhibit p53-mediated G(2) arrest. In other words, p53 requires an intact C-terminus to induce G(2) arrest.
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PMID:C-terminus of p53 is required for G(2) arrest. 1196 Mar 83

Cyclin B1, which plays a key role in the control of cell cycle progression from G(2) through M phase, was recently identified by us as a tumor antigen recognized by human T-cells. To understand what makes this normal molecule antigenic, we compared its expression in malignant versus normal cells. Immunohistology showed overexpression of cyclin B1 protein in tumors compared to surrounding normal tissue and localization in the cytoplasm rather than the nucleus. Cyclin B1 is overexpressed at protein and mRNA level in many tumor cell lines including breast, lung, colorectal carcinoma, lymphoma and leukemia. While overexpressed in tumor cells at all stages of the cell cycle, its expression still peaks at G(2)/M phase, as it does in normal cells. We compared cyclin B1 expression in two cell clones derived from the same colorectal tumor cell line, one wild type for p53 (HCT116p53(+/+)) and one with deleted p53 (HCT116p53(-/-)). HCT116p53(+/+) cells had undetectable (normal) level of cyclin B1 protein, while HCT116p53(-/-) cells showed overexpression. When reconstituted with p53, HCT116p53(-/-) cells reverted to normal cyclin B1 expression. We conclude that p53 plays an important role in cyclin B1 regulation and that tumors with mutated p53 will be good candidates for cyclin B1 based immunotherapy.
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PMID:Immune recognition of cyclin B1 as a tumor antigen is a result of its overexpression in human tumors that is caused by non-functional p53. 1200 77

To investigate the role of cyclin B1 and cdc2 in the pathogenesis and progression of malignant lymphoma, 68 cases of nodal non-Hodgkin's lymphoma were examined about the expression of cyclin B1 and cdc2 along with p53 and Ki-67 by immunohistochemical method. The correlation of their expression with various clinicopathologic findings was also analyzed. Cyclin B1 and cdc2 were diffusely expressed in 39 cases (57.4%) and 54 cases (79.4%) out of 68 cases studied, respectively. The mean labeling indices of cyclin B1 and cdc2 in malignant lymphoma were 31.9% and 68.0%, respectively. In normal lymphoid tissues, cyclin B1 and cdc2 were expressed predominantly in the germinal center with mean labeling indices of 13.9% and 28.3%, respectively. The correlation between the expression of cyclin B1 and cdc2 was noted (p=0.013). The expression of Ki-67 was correlated with that of cyclin B1 (p=0.023) and marginally correlated with that of cdc2 (p=0.056). The expression of cdc2 and p53 in complete remission group to chemotherapy was lower than that of progressive disease group (p=0.047, p=0.049). In multivariate analysis, the clinical stage alone showed significance on overall survival (p=0.049). In conclusion, cyclin B1 and cdc2 appeared to be involved in the genesis or progression of malignant lymphoma and cdc2 can be a useful marker for response to chemotherapy.
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PMID:Expression of cyclin B1 and cdc2 in nodal non-Hodgkin's lymphoma and its prognostic implications. 1206 34

In collaboration with p53, cyclins B1 and G1 regulate the G2/M transition, a key checkpoint in the active cell cycle, which can be monitored by Ki67. However, the cyclin B1 expression remains unclear during colorectal carcinogenesis and during later metastasis to lymph nodes, and cyclin G1 expression is not clear in colorectal tumors. To clarify the variations of the two cyclins in colorectal tumors, cyclin B1, cyclin G1, p53, and Ki67 were immunohistochemically stained in 22 normal mucosa, 62 adenomas, 17 carcinomas in adenomas, 194 primary carcinomas, and 21 lymph node metastases; and the two cyclins were examined by Western blot in other 10 pairs of normal mucosa and primary carcinomas. Located in cytoplasms, nuclei or both, cyclin B1 expression increased significantly from normal mucosa through adenomas to primary carcinomas, from adenomas with mild dysplasia through those with moderate to those with severe, from peripheral adenomas to their central carcinomas, and from primary to metastatic foci. These increased expressions were confirmed by Western blot. Cyclin B1 expression, however, declined significantly in primary carcinomas showing large size, mucinous type, deep invasion, or short postoperative-patient-survival time. High cyclin B1 was linked to high p53 in adenomas, and to high Ki67 in adenomas and primary carcinomas. In contrast, found limited to nuclei, cyclin G1 expression did not vary significantly from normal mucosa through to metastatic carcinomas, and was not associated with clinicopathological parameters, p53 or Ki67. The unchanged expressions were confirmed by Western blot. Thus, increased cyclin B1, but not cyclin G1, may promote colorectal carcinogenesis and later metastasis to lymph nodes.
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PMID:Cyclin B1, unlike cyclin G1, increases significantly during colorectal carcinogenesis and during later metastasis to lymph nodes. 1268 77

In the present studies, the role of oxidative stress in radiosensitization by a combination of 2-DG and 6-aminonicotinamide (6-AN) was examined in a human glioma cell line (BMG-1: wild type p53). Presence of 2-DG or 6-AN for 4 hr after irradiation (gamma ray 2.5 Gy) significantly enhanced the radiation-induced cell death by 18% and the combination (2-DG + 6-AN) enhanced the cell death by 35%. Neither 2-DG nor 6-AN had any further significant effect on the glutathione levels in irradiated cells. However, the combination (2-DG + 6-AN) caused a significant decrease in GSH content, increase in GSSG levels, and enhanced the superoxide radical generation under these conditions. The enhanced cell death caused by the combination (2-DG + 6-AN) mainly resulted by the process of apoptosis as revealed by annexin V binding and was associated with elevated levels of Cyclin B1. However, no significant change was observed in the levels of Bcl-2. Thus, for the first time, our results have demonstrated that the radiosensitizing effects of these modifiers could also be mediated through alterations in the oxidative stress besides energy limited inhibition of repair and recovery processes.
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PMID:Contribution of oxidative stress to radiosensitization by a combination of 2-DG and 6-AN in human cancer cell line. 1532 Apr 90

Farnesyl transferase inhibitors (FTIs) have displayed limited efficacy in clinical trials, possibly because of their relatively limited cytotoxic effects against most human cancer cells. Therefore, efforts to leverage the clinical utility of FTIs may benefit from learning how these agents elicit p53-independent apoptosis in mouse models of cancer. Knockout mouse studies have established that gain of the geranylgeranylated isoform of the small GTPase RhoB is essential for FTI to trigger apoptosis. Here we demonstrate that Cyclin B1 is a crucial target for suppression by RhoB in this death program. Steady-state levels of Cyclin B1 and its associated kinase Cdk1 were suppressed in a RhoB-dependent manner in cells fated to undergo FTI-induced apoptosis. These events were not derivative of cell cycle arrest, because they did not occur in cells fated to undergo FTI-induced growth inhibition. Mechanistic investigations indicated that RhoB mediated transcriptional suppression but also accumulation of Cyclin B1 in the cytosol at early times after FTI treatment, at a time before the subsequent reduction in steady-state protein levels. Enforcing Cyclin B1 expression attenuated apoptosis but not growth inhibition triggered by FTI. Moreover, enforcing Cyclin B1 abolished FTI antitumor activity in graft assays. These findings suggest that Cyclin B1 suppression is a critical step in the mechanism by which FTI triggers apoptosis and robust antitumor efficacy. Our findings suggest that Cyclin B1 suppression may predict favorable clinical responses to FTI, based on cytotoxic susceptibility, and they suggest a rational strategy to address FTI nonresponders by coinhibition of Cdk1 activity.
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PMID:Cyclin B1 is a critical target of RhoB in the cell suicide program triggered by farnesyl transferase inhibition. 1554 9

Primary mouse embryonic fibroblasts lacking expression of all three retinoblastoma protein family members (TKO MEFs) have lost the G1 restriction point. However, in the absence of mitogens these cells become highly sensitive to apoptosis. Here, we show that TKO MEFs that survive serum depletion pass G1 but completely arrest in G2. p21CIP1 and p27KIP1 inhibit Cyclin A-Cdk2 activity and sequester Cyclin B1-Cdk1 in inactive complexes in the nucleus. This response is alleviated by mitogen restimulation or inactivation of p53. Thus, our results disclose a cell cycle arrest mechanism in G2 that restricts the proliferative capacity of mitogen-deprived cells that have lost the G1 restriction point. The involvement of p53 provides a rationale for the synergism between loss of Rb and p53 in tumorigenesis.
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PMID:Mitogen requirement for cell cycle progression in the absence of pocket protein activity. 1633 59

This study investigated the changes, if any, in the level of expression of a well defined panel of cell proliferation, differentiation and apoptosis markers between the primary breast tumor and the corresponding synchronous lymph node metastasis from a population of patients with a comparable disease status, in terms of clinical features, and natural history.Ninety pure invasive ductal carcinomas with 10 or more axillary lymph nodes involved and without evidence of distant metastasis were included in this study. Primary tumor and corresponding metastatic lymph node tissue specimens were evaluated for the expression of Cyclin B1, MMP1 metalloproteinase, ICAM-1, RARbeta, Ki67, ER, PgR, p53, bcl-2 and c-erbB2 by immunohistochemistry using standard methods. The bivariate Pearson correlation analysis demonstrated a close relationship between primary and matching corresponding metastatic node. A high grade of correlation has been maintained even when staining results where categorized as positive/negative according to each one marker cut-off level of staining expression. We report the most extensive immunohistochemical analysis of biological determinants in a well defined population of patients with invasive ductal carcinomas and involvement of 10 or more axillary nodes and no distant metastasis. We found a close correlation between the primary tumor and corresponding metastatic node in terms of the expression of all 10 of the markers investigated in this study. The not complete concordance observed could be explained by the gene expression modulation by extrinsic factors and by the microenvironment in which the cancer cells reside.
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PMID:Correlation between genetic and biological aspects in primary non-metastatic breast cancers and corresponding synchronous axillary lymph node metastasis. 1683 4

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