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)

Although in Fischer 344 rats aging is found to be associated with increased gastric mucosal proliferative activity, little is known about specific changes in the regulatory mechanisms of this process. To determine whether changes in cell cycling events could partly contribute to the age-related rise in gastric mucosal proliferative activity, the present investigation examines changes in cyclin-dependent kinase (Cdk2) activity and the regulation of this process in the gastric mucosa of Fischer 344 rats aged 4 (young), 13 (middle aged), and 24 (old) mo. We observed that aging is associated with a progressive rise in activity and protein levels of Cdk2 in the gastric mucosa. This is also found to be accompanied by a concomitant increase in cyclin E but not cyclin D1 levels. On the other hand, the levels of p21(Waf1/Cip1) (total as well as the fraction associated with Cdk2), a nuclear protein that is known to inhibit different cyclin-Cdk complexes, are found to decline in the gastric mucosa with advancing age. In contrast, with aging, there was a steady rise in p53 levels in the gastric mucosa. We have also observed that the levels of phosphorylated retinoblastoma protein, a form that participates in regulating progression through the S phase, are markedly elevated in the gastric mucosa of aged rats. In conclusion, our data suggest that, in the gastric mucosa, aging enhances transition of G(1) to S phase as well as progression through the S phase of the cell cycle. However, the age-related decline in p21(Waf1/Cip1) in the gastric mucosa appears to be independent of p53 status.
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PMID:Induction of G(1) checkpoint in the gastric mucosa of aged rats. 1056 97

We investigated mutations of the Tp53 tumor suppressor gene (formerly known as p53) in the lung tumors induced in rats after inhalation of plutonium dioxide ((239)PuO(2)) aerosols. Exons 5, 6, 7 and 8 of the Tp53 gene were examined for mutations by single-strand conformation polymorphism (SSCP) analysis of polymerase chain reaction (PCR)-amplified fragments and direct sequencing analysis. Almost all the mutations were guanine (G) to adenine (A) transitions and were distributed in exons 5 and 6. The Tp53 mutations occurred in lung tumors of various phenotypes and levels of immunohistochemical staining of Tp53 nuclear protein. These results indicate that the Tp53 mutations are not associated with tumor phenotype and nuclear accumulation of Tp53 protein, and that the G to A transition could be a common point mutation in the lung tumors seen after the inhalation of plutonium dioxide. The point mutations in the Tp53 gene seem to play a role in the development of lung tumors in rats after inhalation exposures to plutonium dioxide.
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PMID:Mutations in Tp53 gene sequences from lung tumors in rats that inhaled plutonium dioxide. 1056 48

Expression of cell cycle regulatory proteins was evaluated in premalignant and malignant oral epithelial lesions, to test the hypothesis that protein regulation of the cell cycle may be altered in the development of oral squamous cell carcinoma. Archived paraffin-embedded specimens (n = 90) from 25 patients with recurrent or persistent lesions were evaluated in immunohistochemically stained sections for cell cycle regulatory proteins p53, Rb, Cyclin D1, p27, and p21. The cell cycle was also evaluated by expression of nuclear protein Ki 67. Sections were graded semiquantitatively using a 0-3 + scale to indicate the percentage of positively stained cells. The initial histologic diagnosis for 17/25 patients was either focal keratosis, mild dysplasia, or moderate dysplasia; the initial diagnosis for the remaining eight patients ranged from severe dysplasia to moderately differentiated squamous cell carcinoma. Thirty-three of 90 specimens showed positive p53 expression, 11 of which were dysplasias. Eighty-nine of 90 specimens, from all stages of disease, showed positive Rb expression. Twenty-three of 90 specimens showed positive Cyclin D1 expression, typically in the later stages (carcinoma) of a patient's disease. Eighty-four of 90 specimens showed positive p21 expression; while 55 of 90 specimens were positive for p27. In control mucosa, p27 was highly expressed, while Rb and p21 proteins were expressed at relatively low levels; p53 and Cyclin D1 proteins were largely absent. Generally, staining of p53, Rb, p21, and Ki 67 increased with time in serial biopsies, while p27 showed decreased staining with disease progression. These data show that cell cycle regulatory proteins are altered in both premalignant and malignant disease, and that protein phenotypes are heterogeneous. P53 expression is seen early, and Cyclin D1 expression is seen late in the development of oral premalignant and malignant disease. Expression of p53, Rb, p21 and Ki67 increased, while p27 decreased, with disease progression.
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PMID:Cell cycle proteins and the development of oral squamous cell carcinoma. 1062 56

It has been previously demonstrated that the gonadotropin-mediated inhibition ofapoptosis in rat ovarian granulosa cells is associated with changes in the expression of several cell death-regulatory genes, including p53. In addition, it has been shown that the actions of p53 may be amplified through a cooperative interaction with the Wilms' tumor suppressor gene product (WT1). Based on these findings, the present studies were conducted to determine whether p53 and WT1 are expressed and gonadotropin regulated in the human ovary and to study the relationship between tumor suppressor gene expression and apoptosis in human granulosa/lutein cells (GCs). Analysis of total RNA prepared from human GCs using the RT-PCR demonstrated the presence of p53 messenger RNA (mRNA) and four WT1 mRNA splice variants. These observations were supported by Northern blot analysis of total RNA prepared from human GCs, which revealed the presence of a single (approximately 2.8 kb) p53 mRNA transcript and two primary (approximately 1.8 and approximately 3.5 kb) WT1 mRNA transcripts. Western blot analysis of nuclear protein extracts from human GCs yielded one immunoreactive protein of the expected size (approximately 53 kDa) recognized by a p53 antibody and one immunoreactive protein of the expected size (approximately 52-54 kDa) recognized by the WT1 antibody. Immunohistochemical staining showed that both molecules were localized to nuclei of human GCs and were coordinately regulated during follicular development. Immunofluorescence analysis showed that p53 protein was localized exclusively to nuclei of GCs undergoing apoptosis during in vitro culture and was similarly localized to nuclei and cytoplasm of apoptotic granulosa cells in atretic follicles in vivo. To further evaluate whether human GC apoptosis is linked to increased expression of tumor suppressor genes, we analyzed levels of p53 and WT1 mRNA and protein in GCs induced to undergo apoptosis in vitro. Healthy (nonapoptotic) GCs snap-frozen immediately after isolation from patients undergoing in vitro fertilization-embryo transfer possessed relatively low, but detectable, levels of p53 and WT1 mRNA and protein. However, following serum-free culture to induce apoptosis, p53 mRNA and protein levels increased significantly after 24 h, paralleling the increase in the number of apoptotic GCs. The induction of both p53 mRNA and protein in GCs was inhibited by the addition of human CG to the culture medium. In contrast, WT1 mRNA and protein levels remained constitutive in GCs incubated for 24 h compared with GCs snap-frozen immediately after isolation. We conclude that the p53 and WT1 genes are expressed at the mRNA and protein levels in human GCs and that expression of p53 is regulated during follicular maturation. Nuclear accumulation of p53 protein occurs in human GCs during apoptosis in vitro and in vivo, and p53 mRNA and protein are up-regulated in GCs starved of hormonal support but down-regulated by the presence of human CG. We propose that the products of these two principal tumor suppressor genes serve as important regulators of human follicular development and corpus luteum function.
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PMID:Regulated expression and potential roles of p53 and Wilms' tumor suppressor gene (WT1) during follicular development in the human ovary. 1063 23

The candidate tumor-suppressor gene ING1 encodes p33(ING1), a nuclear protein which physically interacts with TP53. It has been shown that p33(ING1) acts in the same biochemical pathway as TP53, leading to cell growth inhibition. Interestingly, a rearrangement of the ING1 gene was found in a neuroblastoma cell line, supporting its involvement in tumor development. Because ING1 resides on the long arm of chromosome 13 (13q34) (a region frequently deleted in many tumor types), we sought to characterize its role in head and neck squamous-cell carcinoma (HNSCC). We first analyzed 44 primary tumors for loss of heterozygosity (LOH) at 13q, using four widely spaced microsatellite markers (13q14, 13q14.3-q22, 13q22, and 13q34). Twenty (48%) of the tumor samples showed LOH in all of the informative markers tested, including D13S1315 at 13q34. Two of the tumors displayed partial losses restricted to one marker (D13S118 at 13q14 in tumor 1164, and D13S135 at 13q14.3-q22 in tumor 1398). We then determined the genomic structure of the ING1 gene and sequenced the entire coding region in 20 primary tumors showing 13q LOH and in five head and neck cancer cell lines. A single germline polymorphism was detected in 10 of the tumors analyzed (T to C change) located 110 nucleotides upstream of the starting methionine. No somatic mutations were found in any of the samples, suggesting that ING1 is not a tumor suppressor gene target in head and neck cancer. Genes Chromosomes Cancer 27:319-322, 2000.
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PMID:Molecular analysis of the candidate tumor suppressor gene ING1 in human head and neck tumors with 13q deletions. 1067 22

Ku is a heterodimeric protein composed of approximately 70- and approximately 80-kDa subunits (Ku70 and Ku80) originally identified as an autoantigen recognized by the sera of patients with autoimmune diseases. Ku has high binding affinity for DNA ends and that is why originally it was known as a DNA end binding protein, but now it is known to also bind the DNA structure at nicks, gaps, hairpins, as well as the ends of telomeres. It has been reported also to bind with sequence specificity to DNA and with weak affinity to RNA. Ku is an abundant nuclear protein and is present in vertebrates, insects, yeast, and worms. Ku contains ssDNA-dependent ATPase and ATP-dependent DNA helicase activities. It is the regulatory subunit of the DNA-dependent protein kinase that phosphorylates many proteins, including SV-40 large T antigen, p53, RNA-polymerase II, RP-A, topoisomerases, hsp90, and many transcription factors such as c-Jun, c-Fos, oct-1, sp-1, c-Myc, TFIID, and many more. It seems to be a multifunctional protein that has been implicated to be involved directly or indirectly in many important cellular metabolic processes such as DNA double-strand break repair, V(D)J recombination of immunoglobulins and T-cell receptor genes, immunoglobulin isotype switching, DNA replication, transcription regulation, regulation of heat shock-induced responses, regulation of the precise structure of telomeric termini, and it also plays a novel role in G2 and M phases of the cell cycle. The mechanism underlying the regulation of all the diverse functions of Ku is still obscure.
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PMID:Ku autoantigen: a multifunctional DNA-binding protein. 1075 64

CREB binding protein (CBP) is a 270-kDa nuclear protein required for activated transcription of a large number of cellular genes. Although CBP was originally discovered through its interaction with phosphorylated CREB (pCREB), it is utilized by a multitude of cellular transcription factors and viral oncoproteins. Both CREB and the tumor suppressor p53 have been shown to directly interact with the KIX domain of CBP. Although coactivator competition is an emerging theme in transcriptional regulation, we have made the fortuitous observation that protein kinase A-phosphorylated CREB strongly enhances p53 association with KIX. Phosphorylated CREB also facilitates interaction of a p53 mutant, defective for KIX binding, indicating that CREB functions in a novel way to bridge p53 and the coactivator. This is accomplished through direct interaction between the bZIP domain of CREB and the amino terminus of p53; a protein-protein interaction that is also detected in vivo. Consistent with our biochemical observations, we show that stimulation of the intracellular cyclic AMP (cAMP) pathway, which leads to CREB phosphorylation, strongly enhances both the transcriptional activation and apoptotic properties of p53. We propose that phosphorylated CREB mediates recruitment of CBP to p53-responsive promoters through direct interaction with p53. These observations provide evidence for a novel pathway that integrates cAMP signaling and p53 transcriptional activity.
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PMID:p53 recruitment of CREB binding protein mediated through phosphorylated CREB: a novel pathway of tumor suppressor regulation. 1084 10

Immunohistochemistry for Topoisomerase II alpha (TopoIIa), a nuclear protein important for the separation of chromosomes and deoxyribonucleic acid replication, provides insight into the molecular events in the cell cycle and the response to chemotherapeutic agents, which target TopoIIa. We test the hypothesis that the percentage of TopoIIa immunoreactive nuclei (TopoIIaI) aids in the treatment and prognostic evaluation of ovarian and primary peritoneal surface epithelial neoplasms (SENs) and correlates with established cell cycle control markers: p53, p21WAF1/CIP1 (p21), and Ki67. Paraffin sections from a retrospective surgical series of 108 SENs were immunostained with anti-TopoIIa, anti-p53, anti-p21, and anti-Ki67. The TopoIIaI, the Ki67 proliferation index (Ki67PI), and the immunoreactivity score for p53 and p21 (IMS: S1, S2, S3 < 10%, 10 to 50%, > 50% of strong staining cells, respectively) were evaluated manually. TopoIIaI and Ki67PI ranged from 5 to 84% and 4 to 88% (mean/median: 31/30 and 44/46%), respectively, and were correlated (coefficient 0.62, p < 10(-11)). IMS of 108 SENs was as follows: p53 50% + (2S1, 52S3) and p21 66% + (38S1, 12S2, 21S3). The TopoIIaI associated directly with p53 (p < 10(-5) and inversely with p21 (p < 0.005) IMS. TopoIIaI correlated with SEN architectural/nuclear grade (p < 10(-5)/10(-7)), but not histologic type. Sixty-seven patients had disease at last follow-up, 55 were dead from disease at 2 to 67 months (mean/median 24/21), and 14 were alive with disease at 31 to 230 months (mean/median 73/59). Forty-one patients were disease free at 5 to 228 months (mean/median 75/54). TopoIIaI correlated with presence of disease (p < 0.01) and poor survival (p < 1 x 10(-9), even when only 93 invasive SEN cases are considered (p < 0.005). TopoIIaI correlates with poor prognosis and other cell cycle control markers. The patients in this retrospective series of SEN were treated primarily with platinum-based chemotherapy. These data may suggest further prospective studies in which patients with SENs exhibiting high TopoIIaI are treated with chemotherapy targeted against TopoIIa (e.g., etoposide). In this retrospective series, high SEN TopoIIaI predicted poor survival when treated with platinum-based chemotherapy, which does not target TopoIIa.
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PMID:Topoisomerase II alpha: prognostic predictor and cell cycle marker in surface epithelial neoplasms of the ovary and peritoneum. 1090 74

p53 gene mutations are among the most common specific genetic alterations in human cancer. Inactivation of p53 and subsequent protein accumulation has been implicated in a variety of human malignancies and associated with prostate cancer progression. In this study, we assessed p53 protein overexpression and gene mutations in prostate carcinoma and investigated associations between p53 alterations and clinicopathological parameters, survival, and response to radiotherapy. We evaluated 58 archival formalin-fixed, paraffin-embedded prostate carcinomas to detect abnormal p53 nuclear protein accumulation using immunohistochemistry. p53 mutational status of tumor DNA was evaluated using polymerase chain reaction-single-strand conformation polymorphism analysis of exons 5-9 and confirmed by direct DNA sequencing. Univariate and multivariate statistical analysis was used to determine the association of p53 status with clinical characteristics and response to radiotherapy. Overexpression of p53 was detected in 42 (72%) of 58 primary prostate carcinomas, but was undetectable in 7 samples of benign prostatic hyperplasias or 5 samples of normal prostate tissue. p53 exon 5-9 mutations were detected in 8 (14%) of 58 patient specimens. p53 mutational status, but not overexpression, was associated with higher Gleason scores (p=0.0145). Neither p53 overexpression nor mutation was associated with clinical stage, biochemical disease-free probability, or predictive of response to radiotherapy. p53 protein accumulation was inversely associated with improved overall survival (p=0.0108). Our studies demonstrate that p53 protein accumulation is a frequent alteration in prostate cancer. The disparity between p53 protein overexpression and p53 exon 5-9 mutations suggests the possibility of mutations outside this region or stabilization of wild-type p53 by alternative mechanisms. In our patient population, p53 protein overexpression or mutational status was not predictive of outcome in patients treated with radiation therapy. Additional studies are needed to further evaluate the association between p53 protein overexpression and improved overall survival.
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PMID:Overexpression of p53 in prostate carcinoma is associated with improved overall survival but not predictive of response to radiotherapy. 1099 89

GADD45 is an evolutionarily conserved gene that encodes a small acidic, nuclear protein and is an example of a p53 responsive gene. Gadd45 protein has been shown to interact with PCNA and also p21waf1. It has been implicated in growth arrest, DNA repair, chromatin structure and signal transduction. The confusing biochemical data has been clarified by the demonstration that Gadd45 null mice have a phenotype strikingly similar to that of p53 null mice, being tumour prone and showing marked genomic instability. We have tested the hypothesis that mutations in the GADD45 coding region might substitute for p53 abnormalities in tumour cell lines where p53 is wild type. After generating cDNA from mRNA in a panel of 24 cell lines we sequenced the GADD45 cDNA and have demonstrated that no mutations can be observed, even in the p53 wild type cell lines. Such data suggest that Gadd45 mutations are uncommon in human cancer. From this we postulate that, despite the phenotype of the GADD45 null mouse, GADD45 is unlikely to be the key mechanistic determinant of the tumour suppressor activity of the p53 pathway.
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PMID:Gadd45 mutations are uncommon in human tumour cell lines. 1106 32


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