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)

To investigate the possible role of positron emission tomography (PET) with fluorine-18 fluorodeoxyglucose (FDG) in the prognostic evaluation of primary breast cancer, we studied 86 patients with T1-3 (TNM classification) breast tumours before surgery and compared the tumour FDG uptake, calculated as a standardized uptake value (SUV), with postoperative histopathological findings, steroid hormone receptor status of the tumour, thymidine labelling index (LI) and tissular expression of p53. SUV was significantly higher in infiltrating ductal carcinomas (n = 68; median SUV = 5.6) than in lobular ones (n = 18; median SUV = 3.8), and in grade 3 carcinomas (n = 26; median SUV = 6.2) than in grade 1-2 ones (n = 60; median SUV = 4.9). Moreover, SUV was significantly higher in carcinomas with high levels of p53 (n = 12; median SUV = 9.5) than in those with low levels (n = 48; median SUV = 4.25). By contrast, there was no significant correlation between SUV and the steroid hormone receptor status or LI of tumours. Our data demonstrate that FDG uptake, expressed as SUV, is associated with certain prognostic factors in breast cancer, such as histopathological grading and p53 expression, which can be assessed only by means of postoperative in vitro examinations. Hence, the information provided by FDG-PET is to some extent related to relevant information on tumour biology. The clinical value of these data will have to be confirmed by analysis of the independence of SUV from other prognostic factors by means of a multivariate analysis performed on a larger series of patients with adequate follow-up. If SUV is confirmed as an independent variable, FDG-PET could assume an important role in the determination of appropriate therapeutic strategies for primary breast cancer.
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PMID:Association between [18F]fluorodeoxyglucose uptake and postoperative histopathology, hormone receptor status, thymidine labelling index and p53 in primary breast cancer: a preliminary observation. 981 84

The NAD+-dependent protein deacetylase family, Sir2 (or sirtuins), is important for many cellular processes including gene silencing, regulation of p53, fatty acid metabolism, cell cycle regulation, and life span extension. Resveratrol, a polyphenol found in wines and thought to harbor major health benefits, was reported to be an activator of Sir2 enzymes in vivo and in vitro. In addition, resveratrol was shown to increase life span in three model organisms through a Sir2-dependent pathway. Here, we investigated the molecular basis for Sir2 activation by resveratrol. Among the three enzymes tested (yeast Sir2, human SIRT1, and human SIRT2), only SIRT1 exhibited significant enzyme activation ( approximately 8-fold) using the commercially available Fluor de Lys kit (BioMol). To examine the requirements for resveratrol activation of SIRT1, we synthesized three p53 acetylpeptide substrates either lacking a fluorophore or containing a 7-amino-4-methylcoumarin (p53-AMC) or rhodamine 110 (p53-R110). Although SIRT1 activation was independent of the acetylpeptide sequence, resveratrol activation was completely dependent on the presence of a covalently attached fluorophore. Substrate competition studies indicated that the fluorophore decreased the binding affinity of the peptide, and, in the presence of resveratrol, fluorophore-containing substrates bound more tightly to SIRT1. Using available crystal structures, a model of SIRT1 bound to p53-AMC peptide was constructed. Without resveratrol, the coumarin of p53-AMC peptide is solvent-exposed and makes no significant contacts with SIRT1. We propose that binding of resveratrol to SIRT1 promotes a conformational change that better accommodates the attached coumarin group.
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PMID:Mechanism of human SIRT1 activation by resveratrol. 1574 5

Cyclin G1 (CG1) was identified as a p53-transactivated target gene, and yet its physiological and pathological roles have been unclear. Here, we demonstrate that CG1 is translocated from cytoplasm to the nuclei of neurons in response to variety of injuries. In the normal matured rodent brain, CG1 immunoreactivity was hardly observed; however, some brain injuries exhibited intense CG1 immunoreactivity in the nuclei of the damaged neurons. Transient common carotid artery occlusion (CCAO) in the gerbil showed strong CG1-like immunoreactivity in the hippocampal CA1 neurons, and permanent middle cerebral artery occlusion (MCAO) in the mouse showed strong CG1-like immunoreactivity in the nuclei of neurons located in the ischemic brain regions. TUNEL staining did not exactly overlap with the CG1-positive cells, but overlapped highly with Fluoro-Jade B staining, a degeneration marker. Brain trauma caused by knife cut, cold injury, and kinate injection also showed CG1 accumulation in the neuronal nuclei located near the injury site. These observations were obtained in p53-deficient mice as well, suggesting that the accumulation of CG1 in the injured neurons is p53-independent. A similar nuclear translocation of endogenous CG1 was confirmed in a primary culture of cortical neurons when a toxic level of N-methyl-D-aspartate (NMDA) was applied. These results demonstrate that nuclear translocation of CG1 from cytoplasmic region occurs in damaged and degenerating neurons in a p53-independent manner, and the CG1 nuclear staining could be a good marker for the neurons received fatal damages.
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PMID:The p53-independent nuclear translocation of cyclin G1 in degenerating neurons by ischemic and traumatic insults. 1586 37

DNA repair plays a critical, but imprecisely defined role in excitotoxic injury and neuronal survival throughout adulthood. We utilized an excitotoxic injury model to compare the location and phenotype of degenerating neurons in mice (strain 129-C57BL) deficient in the catalytic subunit of the DNA-dependent protein kinase (DNA-PKcs), an enzyme required for nonhomologous end joining (NHEJ). Brains from untreated adult heterozygous and DNA-PKcs null mice displayed comparable cytoarchitecture and undetectable levels of cell death. By day 1, and extending through 4 days following kainic acid-induced seizures, brains from DNA-PKcs null mice showed widespread neurodegeneration that encompassed the entire hippocampal CA1-CA3 pyramidal cell layer, entorhinal cortex, and lateral septum, with relative sparing of the dentate gyrus granule cell layer and hilus, as judged by toluidine blue, Fluoro-Jade B, and terminal dUTP nick end labeling staining. In contrast, seizure-related neurodegeneration in heterozygous littermates was limited to the CA3 region of the hippocampus. NeuN and calbindin staining revealed a selective decrease in the number and density of NeuN-positive neurons in the pyramidal layers of degenerating regions in both heterozygous and DNA-PKcs null mice. To elucidate the mechanisms leading to cell death, we examined an involvement of the p53 pathway, known to be induced by DNA damage. Addition of pifithrin-alpha, a p53 inhibitor, or expression of a dominant-negative p53 rescued neurons from kainate-induced excitotoxic cell death in primary cortical cultures derived from wildtype, DNA-PKcs heterozygous, or DNA-PKcs null neonatal mice. Moreover, pifithrin-alpha prevented kainate-induced loss of mitochondrial membrane potential, dendrite degeneration, and cell death. Results suggest that NHEJ plays a neuroprotective role in excitotoxicity, within the perforant, Schaffer collateral, hippocampal-septal, and temperoammonic pathways, in part by repairing DNA damage that would otherwise result in activation of a p53-dependent apoptotic cascade.
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PMID:DNA damage and nonhomologous end joining in excitotoxicity: neuroprotective role of DNA-PKcs in kainic acid-induced seizures. 1621 17

We present an analysis of the antitumour effects of a library of ingenol derivatives synthesized in our laboratory and published elsewhere. Fluoro-ingenol (1), ingenol-20-deoxy-20-phtalimido (2), ingenol-3-benzoate-20-deoxy-20-benzamide (3), ingenol-3-benzoate (4), ingenol-3,5-dibenzoate (5), ingenol-3,20-dibenzoate (6), 20-deoxy-20-benylureidoingenol-3-benzoate (7), ingenol-20-deoxy-20-fluoro-3-benzoate (8), ingenol-20-deoxy-20-fluoro-3,5-dibenzoate (9), ingenol-20-phenylcarbamate (10), ingenol-20-benzoate (11), ingenol-3-benzoate-20-phenylcarbamate (12) were tested in vitro on two well characterized breast cancer cell (BCC) lines, namely T47D and MDA-MB-231, as representative of two opposite types of hormone-sensitiveness and differentiation stage. These experiments led us to identify ingenol-20-benzoate (11) as a promising antitumour compound characterized by a relevant inhibition of cell growth and apoptotic cell death involving a p53-mediated pathway.
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PMID:Ingenol derivatives inhibit proliferation and induce apoptosis in breast cancer cell lines. 1628 71

Chemoresistance is a biological response of cells to survive toxic stress. During cancer treatment the development of chemoresistance is a major problem. The mechanisms how cells become insensitive, and which downstream pathways are affected are not completely understood. Since it has not been well analysed which and how many regulative disorders are subsummised under the term "chemoresistance", we examined and measured arabinosylcytosine (AraC)-mediated desensitation of two mechanisms relevant for tissue homeostasis, cell cycle inhibition and apoptosis induction. MCF-7 cells harbouring ectopic mutated p53 were suitable for this investigation because they activated these mechanisms subsequently and became insensitive to AraC with regard to cell cycle inhibition and apoptosis induction. The major causal mechanism of acquired resistance against AraC was most likely through the inhibition of the first step of AraC phosphorylation within the cell, which is rate limiting for its activation. With regard to cell cycle inhibition AraC-resistant cells were also resistant against 5-fluorodeoxyuridine (5-FdUrd), but fully responsive to 5-FdUrd-induced apoptosis, evidencing that cell cycle and apoptosis are independent of each other. Apoptosis correlated with AIF-activation and was independent of Caspase 7, whereas cell cycle inhibition correlated with cyclinD1 expression but not with induction of p21 or p27. The phosphate conjugated 5-FdUrd-araC heterodimer (5-Fluoro-2'-desoxyuridylyl-(3'-->5')-Arabinocytidine), which is a prodrug of AraC-monophosphate, reactivated AIF and down-regulated cyclin D1 in AraC-resistant cells and circumvented resistance to apoptosis and to cell cycle inhibition. Also, cells which were resistant to 5-FdUrd or doxorubicin were sensitive to 5-FdUrd-araC. This investigation demonstrates that chemoresistance affects apoptosis induction and cell cycle inhibition independently and that detailed knowledge about the affected downstream pathways would enable the design of targeted intervention with small molecules to restore chemosensitivity.
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PMID:Analysis of mechanisms contributing to AraC-mediated chemoresistance and re-establishment of drug sensitivity by the novel heterodinucleoside phosphate 5-FdUrd-araC. 1653 82

Although heat shock protein 70 (HSP70) has been suggested to be a stress marker or to play a protective role in brain injury, the relevance of its pathological expression in epilepsy is unclear. We investigated the expression of HSP70 in brain tissue from human temporal lobe epilepsy (TLE) patients and from kainic acid (KA)-induced seizure-related neuronal damage in vivo and in vitro. The human TLE tissue showed severe neuronal loss and gliosis in hippocampal CA3 area. The KA-induced neuronal damage was similar to pathological changes of the TLE hippocampus. An increased number of TUNEL-positive cells were observed at day 5 when compared with day 2 after seizure induction. Intense HSP70 immunofluorescence was observed in hippocampal CA3 pyramidal neurons of rat, 2 days following KA administration, which then declined in labeling by day 5. No HSP70 expression was found in Fluoro-Jade B positive dying neurons by double staining. Western blot analysis showed an increased level of p53 and Bax expression following KA treatment. In vitro, there was no apparent difference in the degree of apoptosis between HSP70 siRNA- and control empty vector-transfected primary neurons following KA treatment. Our results revealed that HSP70 was a useful indicator of stressed neurons in acute phase of epilepsy, but not associated with neuronal death, thereby suggesting that HSP70 played no role in neuroprotection during an epileptogenic state.
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PMID:Heat shock protein 70 expression in epilepsy suggests stress rather than protection. 1792 41

In neuronal cultures it has been demonstrated that neurotrophins can elicit neuronal death through the p75 neurotrophic receptor (p75ntr) in the absence of concomitant Trk signaling. However, it was suggested that p75ntr induces neuronal death after status epilepticus (SE) in neuronal populations that express relatively high quantities of tropomyosin receptor kinase B (TrkB). Here, using Western blot and immunohistochemistry analyses in the hippocampus, we found that 3-h SE caused a remarkable decrease in TrkB expression and phosphorylation, and a significant increase in p75ntr. TrkB modification occurs before the overexpression of the tumor suppressor protein p53, accompanies the cell damage taking place in the dentate gyrus, and precedes the CA1 neuronal injury as assessed by Fluoro-Jade B and Nissl staining. Co-immunoprecipitation of brain-derived neurotrophic factor (BDNF) or its immature form proBDNF showed increased interaction with p75ntr after its binding to TrkB was reduced. Interestingly, proBDNF also increases its binding with p75ntr after seizures that do not cause neuronal death (animals injected with pilocarpine that fail to enter SE). However, in those animals, TrkB protein levels remained unchanged and its phosphorylation increased. Our results indicate an intrinsic capacity of neurons in vivo to modify final neurotrophin output by changing the proportion of their receptors' expression and the receptors' interaction with their ligands. These early events support the idea that neurotrophins may be involved in the induction of neuronal death in vivo under pathological conditions.
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PMID:Status epilepticus induces a TrkB to p75 neurotrophin receptor switch and increases brain-derived neurotrophic factor interaction with p75 neurotrophin receptor: an initial event in neuronal injury induction. 1851 Dec 10

In the present study we tested the protective effects of netrin-1 in stroke and investigated the potential underlying mechanisms. When we performed middle cerebral artery occlusion (MCAO) on adult mice, up-regulation of the receptor uncoordinated gene 5H2 (UNC5H2) but not its ligand netrin-1 was detected with RT-PCR and immunohistochemistry. Injection of netrin-1, 1 day after MCAO, significantly reduced infarct volume at 3 days after MCAO as revealed by functional magnetic resonance imaging. The ischemic cortex was preserved when netrin-1 was continuously administered. Fluoro-Jade and terminal deoxynucleotidyl transferase-mediated digoxigenin-dUTP-biotin nick-end labeling staining showed that netrin-1 reduced the number of dying neurons and apoptotic cells after MCAO. Ischemia-induced p53 expression was attenuated by netrin-1. We also tested the ability of netrin-1 to attract intrinsic neuronal stem cells to the infarct area. Both DCC and UNC5H2 were expressed in neurosphere culture and netrin-1 attracted stem cells in an in vitro transwell assay. However, in vivo netrin-1 administration did not enhance the MCAO-induced stem cell migration toward the infarct area. Our study shows that UNC5H2 expression was elevated after MCAO and administration of netrin-1 protected infarct tissue from p53-mediated apoptosis. These data indicate that the p53/dependent receptor pathway is involved in ischemic stroke pathology and suggest possible new stroke therapies.
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PMID:Netrin-1 attenuates ischemic stroke-induced apoptosis. 1878 16

Ischemic preconditioning (IPC) represents an important adaptation of CNS to sub-lethal ischemia, which results in increased tolerance of CNS to the lethal ischemia. Ischemia-induced mitochondrial apoptosis is considered to be an important event leading to neuronal cell death after cerebral blood flow arrest. In presented study, we have determined the effect of IPC on ischemia/reperfusion-induced mitochondrial apoptosis. Global brain ischemia was induced by permanent occlusion of vertebral arteries and temporal occlusion of carotid arteries for 15 min. Rats were preconditioned by 5 min of sub-lethal ischemia and 2 days later 15 min of lethal ischemia was induced. With respect to mitochondrial apoptosis initiation, translocation of p53 to mitochondria was observed in hippocampus but not in cerebral cortex. However, level of both apoptotic bax and anti-apoptotic bcl-xl in both hippocampal and cortical mitochondria was unchanged after global brain ischemia. Detection of genomic DNA fragmentation as well as Fluoro-Jade C staining showed that ischemia induces apoptosis in vulnerable CA1 layer of rat hippocampus. IPC abolished completely ischemia-induced translocation of p53 to mitochondria and had significant protective effect on ischemia-induced DNA fragmentation. In addition, significant decrease of Fluoro-Jade C positive cells was observed as well. Our results indicate that IPC abolished almost completely both initiation and execution of mitochondrial apoptosis induced by global brain ischemia.
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PMID:Ischemia-induced mitochondrial apoptosis is significantly attenuated by ischemic preconditioning. 1928 70


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