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)

It is known that testosterone deficiency induces apoptosis in the prostate and that p53 protein is involved in this apoptosis. Therefore, p53 protein may also be involved in apoptosis induction in a testosterone-deficient state in the penis. In this study, we investigated whether castration and chemical castration induce apoptosis at penile tissue in rats, and whether p53 protein is involved in this apoptosis. Male SD rats aged 8 weeks were divided into four groups: 1) the Control group; 2) the Castration group; 3) the Estrogen group, in which rats received betaestradiol 17-(beta-D-glucuronide) injection of 500 microg/body/day; and 4) the LH-RH group, in which rats received LH-RH analogue (leuprorelin acetate) injection of 2 mg/kg. The rats were sacrificed after treatment on days 1, 3, 5, 14, and 28 by cervical dislocation. Apoptotic cells and p53 protein-positive cells were observed on the 5th day after treatment and thereafter in all castration, estrogen, and LH-RH groups. These findings showed that both castration and chemical castration induced p53 protein in vascular endothelial cells in the corpus cavernosus during the process of losing testosterone. It was also suggested that in such states, apoptosis is induced in vascular endotherial cells in the corpus cavernosus.
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PMID:Penile apoptosis in association with p53 under lack of testosterone. 1468 95

The histological diagnosis of low-grade astrocytomas and oligodendrogliomas (WHO grade II) is often challenging, particularly in cases that show both astrocytic and oligodendroglial differentiation. We carried out gene expression profiling on 17 oligodendrogliomas (93% with LOH 1p and/or 19q) and 15 low-grade astrocytomas (71% with a TP53 mutation), using a cDNA array containing 1176 cancer-related genes. In oligodendrogliomas, 40 genes showed on average higher expression (at least a two-fold increase) than in astrocytomas, including DES, TDGF1, TGF-beta, GABA-BR1A, Histone H4, CDKN1A, PCDH43, Rho7 and Jun-D, while 39 genes were expressed at lower levels (at least a two-fold decrease), including JNK2, ITGB4, JNK3A2, RhoC, IFI-56K, AAD14 and EGFR. Immunohistochemistry revealed nuclear staining of Jun-D in oligodendrogliomas, in contrast to the immunoreactivity of cytoplasm and cell processes in low-grade astrocytomas. Partial least-squares analysis of the 79 genes at least two-fold differentially expressed between oligodendrogliomas and low-grade astrocytomas demonstrated perfect separation of oligodendrogliomas from low-grade astrocytomas and normal cerebral white matter. Clustering analysis based on the entire gene set divided the 17 subjects with oligodendrogliomas into two subgroups with significantly different survival (log-rank test, P=0.0305; survival to 5-years, 80 vs 0%, P=0.048). These results demonstrate that oligodendrogliomas and low-grade astrocytomas differ in their gene expression profiles, and that there are subgroups of oligodendroglioma with distinct expression profiles related to clinical outcome.
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PMID:Gene expression profiling and subgroup identification of oligodendrogliomas. 1520 79

Estrogen is known to be anabolic for bone and we have used estrogen treatment as a paradigm to understand how p53 may affect osteoblast differentiation. In previous studies we have shown estrogen treatment to increase p53 functional activity in osteoblasts. Estrogen has been suggested to inhibit apoptosis in osteoblasts. Since the significance of a p53 increase during estrogen treatment is not apparent, we investigated the environment within osteoblasts after treatment with estrogen. We observed two peaks of p53 activity during continuous treatment of 17-[beta]-estradiol (E2) for 72h. The gene expression profile of different cell cycle regulators and apoptosis related genes at different times during treatment with 17-[beta]-estradiol were tested using gene arrays. There was an early increase in expression of several genes involved in apoptosis. This was followed by changes in expression of several genes involved in cell survival and stress response. The second peak of activity was associated with increase in expression of cell cycle regulators. Our results suggest that p53 activity may be a result of activation of several signaling pathways involving apoptosis, cell survival and cell cycle arrest. P53 may have a role in integrating these responses, which eventually results in cell cycle arrest and expression of differentiation markers.
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PMID:Gene expression changes accompanying p53 activity during estrogen treatment of osteoblasts. 1531 49

BTG2, a p53-inducible antiproliferative gene, is stimulated in breast cancer cells by activation of nuclear factor kappa B (NF-kappaB). In rat mammary glands, BTG2 is expressed in epithelial cells and levels decreased during pregnancy and lactation but recovered during involution. Estrogen and progestin suppress BTG2 expression, suggesting that these steroids, which stimulate proliferation and lobuloalveolar development of mammary epithelial cells, may downregulate BTG2 in the mammary gland during pregnancy. Consistent with the report that BTG2 inhibits cyclin D1 expression, suppression of BTG2 mRNA in the mammary gland during gestation, and by estrogen and progestin, correlated with stimulation of cyclin D1. Ectopic expression of BTG2 inhibited breast cancer cell growth by arresting cells in the G1 phase, an effect reversed by cyclin D1. BTG2 expression was very low or undetectable in human breast cancer cell lines compared with nontumorigenic mammary epithelial cells, and nuclear expression of BTG2 was absent in 65% of human breast tumors compared with adjacent matched normal glands. Spontaneous mammary tumors arising in a mouse model with targeted expression of the early region of the SV40 large tumor Ag demonstrated loss of BTG2 protein very early during the tumorigenic process. Thus deregulation of BTG2 may be an important step in the development of mammary tumors.
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PMID:Expression of the NF-kappaB-responsive gene BTG2 is aberrantly regulated in breast cancer. 1537

Estrogen causes breast cancer by triggering proliferation via an estrogen receptor (ER)-mediated mechanism. However, paradoxically, ER alpha, one of the two known ER subtypes, and the proliferation marker, Ki67, are not usually expressed in the same breast tumor. To explore whether ER alpha-positive tumors and proliferating (Ki67-positive) tumors have different tumorigenic characteristics, we performed an immunohistochemical study on 74 early-onset infiltrating ductal carcinomas of the breast. To test this hypothesis, we examined whether ER alpha-positive and Ki67-positive tumors showed differences in (i) pathological grade, (ii) three indices of tumor grade (tubule formation, nuclear pleomorphism, and mitotic number), and (iii) expression of important proteins implicated in breast tumorigenesis (cyclin D1, ErbB2, ATM, BRCA1, Rb, p53, and p21). The results of the multigenic analysis showed that ER alpha and Ki67 were the only two important markers significantly and independently associated with tumor grade, consistent with the above hypothesis. ER alpha-positive, Ki67-negative tumors frequently displayed a low tumor grade (i.e. being well differentiated), whereas Ki67-positive, ER alpha-negative tumors were more likely to exhibit a high tumor grade. In addition, positive ER alpha expression (46 of 74 cases, 62%) correlated well with positive cyclin D1 expression (p < 0.005), less nuclear pleomorphism (p < 0.001), and a low mitotic count (p < 0.005), whereas positive Ki67 expression (36 of 74 cases, 49%) correlated with reduced BRCA1 expression (p < 0.01) and high mitotic activity (p < 0.01). These findings suggest that the expressions of ER alpha and Ki67 might be involved in distinct pathological and molecular features during breast cancer development.
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PMID:Expression of estrogen receptor-alpha and Ki67 in relation to pathological and molecular features in early-onset infiltrating ductal carcinoma. 1559 88

DES carcinogenicity has been investigated in 2 mouse knockout models, the Xpa homozygous knockout, and the combined Xpa homozygous and p53 heterozygous knockout. Wild-type (WT) mice were also included. Xpa mice received diets containing DES at concentrations of 0, 100, 300, and 1500 ppb for 39 weeks; Xpa/p53 and WT mice received diets containing 0 or 1500 ppb. There were 15 of each sex per group. Both Xpa and WT mice had a similar incidence of tumors at the high dosage of 1500 ppb, including pituitary adenomas in 4 WT mice and 7 Xpa mice, and single incidences of osteosarcoma (Xpa), T-cell lymphoma (WT and Xpa), and testicular interstitial cell adenoma (WT and Xpa). The incidence of tumors was higher in the Xpa/p53 mice at 1500 ppb, mainly attributable to 5 osteosarcomas in males and 2 in females, but also 4 pituitary adenomas, testicular interstitial cell adenomas in 4 males, and single incidences of cerebral glioma, phaeochromocytoma, and cervical fibrosarcoma. The incidence of osteosarcomas was related to the severity of fibro-osseous lesions in the bone marrow. It was concluded that for carcinogenicity screening, Xpa mice were no more sensitive than wild-type mice for compounds like DES, but the Xpa/p53 model showed an increased sensitivity.
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PMID:Diethylstilbestrol (DES): carcinogenic potential in Xpa-/-, Xpa-/- / p53+/-, and wild-type mice during 9 months' dietary exposure. 1617 26

Hepatocellular carcinoma (HCC), the major manifestation of primary liver cancer, is one of the most frequent and malignant cancers worldwide, especially in Taiwan. Estrogen receptors (ERs) have been reported to play either a proliferation- or apoptosis-enhancing role in the differentiation of cancers, including HCC. In a previous experiment, we showed that transient overexpressed estrogen receptor-alpha induced early stage HCC cell line Hep 3B cell apoptosis by increasing the hTNF-alpha gene expression in a ligand-independent manner. To further clarify if the apoptotic effect occurs in poorly differentiated HCC cell line, HA22T, and elucidate the roles of ERs and TNF-alpha, DNA fragmentation and caspase activity were measured in late stage HCC cell line, HA22T, by measuring the expression of hER-alpha and hER-beta using a Tetracycline-inducible system (Tet-on). Increased DNA fragmentation and caspase-3 activity were found in hERbeta-overexpressed HA22T cells treated with estrogen (10(-8) M) but not in hERalpha-overexpressed HA22T cells. Using RT-PCR/PCR and western blotting in HA22T cells, overexpressed hER-beta was also found to increase the expression of hTNF-alpha mRNA and induce hTNF-alpha-dependent luciferase activity in a ligand-dependent manner. Additionally, LPS treatment and hER-beta overexpression both enhance caspase-8 activities, whereas neither hER-beta nor E2 treatment affected caspase-9 activities. In addition, the overexpressed hER-beta plus E2 enhanced DNA fragmentation and caspase-8 activities were only partially reduced by anti-hTNF-alpha (0.1 ng/ml), which was possibly due to the involvement of P53 and TGF-beta. Taken together, our data indicates that overexpressed hER-beta but not hER-alpha may induce caspase-8-mediated apoptosis by increasing the hTNF-alpha gene expression in a ligand-dependent manner in poorly differentiated HA22T cells.
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PMID:Opposing action of estrogen receptors alpha and beta on tumor necrosis factor-alpha gene expression and caspase-8-mediated apoptotic effects in HA22T cells. 1663 37

Diethylstilbestrol (DES) causes DNA adducts resulting in breast cancer, whereas diallyl sulfide (DAS) inhibits cancer formation. We hypothesize that DAS induces the expression of nucleotide excision repair genes. To test this hypothesis, female ACI rats were treated for 4 days with corn oil, DES, DAS, and DAS/DES (50mg/kg). The expression of P53, Gadd45a, PCNA, and DNA polymerase delta was analyzed by real-time PCR. DES decreased the expression of P53, Gadd45a and PCNA. DAS and DAS/DES increased the expression of all four genes. These results suggest that DAS enhances the ability of breast tissue to repair DNA damage thus preventing cancer.
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PMID:Diallyl sulfide induces the expression of nucleotide excision repair enzymes in the breast of female ACI rats. 1712 41

Common fragile site gene WWOX encodes a candidate tumor suppressor WW domain-containing oxidoreductase. Alteration of this gene, along with dramatic downregulation of WWOX protein, is shown in the majority of invasive cancer cells. Ectopic WWOX exhibits proapoptotic and tumor inhibitory functions in vitro and in vivo, probably interacting with growth regulatory proteins p53, p73 and others. Hyaluronidases regulate WWOX expression, increase cancer invasiveness and seem to be involved in the development of hormone-independent growth of invasive cancer cells. Estrogen and androgen stimulate phosphorylation and nuclear translocation of WWOX, although binding of WWOX to these sex hormones is unknown. We propose that suppression of WWOX expression by overexpressed hyaluronidases might contribute in part to the development of hormone independence in invasive cancer.
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PMID:WW domain-containing oxidoreductase: a candidate tumor suppressor. 1714 2

In addition to the direct effect of estrogen on mitochondria and the redox cycling of catechol estrogen, estrogen-induced proinflammatory cytokines, such as interleukin-1 beta (IL-1beta) and tumor necrosis factor alpha (TNF-alpha), also generate reactive oxygen and nitrogen species (RO/NS). Different cellular signaling pathways may operate in response to varying levels of estrogen-induced RO/NS, leading to genotoxic damage, cell apoptosis, or cell growth. At high levels of RO/NS, cells receiving genotoxic insults, if not repaired, may engage the apoptotic pathways. There is increasing evidence supporting that estrogen-induced alterations in the genome of cells is produced by oxidative attack. Furthermore, ROS generated by estrogen exposure and/or active metabolites of estrogen in combination with receptor-mediated proliferation of genetically damaged cells may be involved in tumor development. This view is supported by the findings of DNA modifications produced in vitro or in vivo by natural and synthetic estrogens in the target organs of cancer both in experimental models and in humans. Interaction of estrogen-induced oxidants and estrogen metabolites with DNA was shown to generate mutations in genes. Cotreatment with an inhibitor of IL-1beta and TNF-alpha synthesis, pentoxifylline, decreased stilbene estrogen-induced levels of myeloperoxidase (MPO), 8-hydroxydeoxyguanosine formation, and gene mutations, and prevented stilbene estrogen-induced lesions. Stable MCF-7 clones overexpressing IL-1beta resulted in a high level of IL-1beta peptide secretion undergoing cell apoptosis, and an elevated level of p53 protein in response to high oxidative stress when compared to nontransfected cells, whereas MCF-7 clones overexpressing IL-1beta that resulted in a moderate level of IL-1beta secretion stimulated the clonal expansion of MCF-7 and TM3 cells. Estrogen-induced MCF-7 cell growth and cyclin D1 expression were suppressed by antioxidants and mitochondrial blockers. These studies support that in addition to ovarian estrogen-mediated ER signaling, mitogenic signals may also come from estrogen-induced RO/NS. Further validation of this concept that the concentration of the RO/NS within the cellular microenvironment determines its stimulatory or inhibitory growth signals as well as its genotoxic effects regulating the growth of estrogen-dependent tumors may result in novel preventive strategies.
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PMID:Estrogen-induced generation of reactive oxygen and nitrogen species, gene damage, and estrogen-dependent cancers. 1762 Feb 1

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