UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactive oxygen species (ROS) play a major role in causing mitochondrial changes linked to cancer and metastasis. Uptake of antioxidants by tissue to reduce the ROS production could be instrumental in controlling cancer. Tamoxifen (TAM), a nonsteroidal anti-estrogen drug most used in the chemotherapy and chemoprevention of breast cancer. Riboflavin, niacin and coenzyme Q10 (CoQ10) are proved to be potent antioxidants and protective agents against many diseases including cancer. The objective of this research is to determine the therapeutic efficacy of combinatorial therapy on mammary carcinoma bearing rats in terms of the mitochondrial lipid peroxidation and antioxidant status especially MnSOD. Female albino rats of Sprague-Dawley strain were selected for the investigation. Mammary carcinoma was induced with 7,12-dimethyl benz(a)anthracene (DMBA: 25 mg), and the treatment was started by the oral administration of TAM (10 mg/kg body weight/day) along with riboflavin (45 mg/kg body weight/day), niacin (100 mg/kg body weight/day) and CoQ10 (40 mg/kg body weight/day) for 28 days. The levels of lipid peroxides, activities of enzymic and non-enzymic antioxidants were measured in the mitochondria isolated from the mammary gland and liver of control and experimental rats. Rats treated with DMBA showed an increase in mitochondrial lipid peroxidation (mammary gland 52.3%; liver 25.1%) accompanied by high malondialdehyde levels along with lowered activities of mitochondrial enzymic antioxidants [superoxide dismutase (mammary gland 19.9%; liver 24.8%), catalase (mammary gland 50%; liver 19.7%), glutathione peroxidase (mammary gland 47.8%; liver 31.1%)] and non-enzymic antioxidants [reduced glutathione (mammary gland 14.3%; liver 13.3%), Vitamin C (mammary gland 6.49%; liver 21.4%) and E (mammary gland 20.3%; liver 22.2%)]. Administration of combinatorial therapy restored lipid peroxide level and the activities of enzymic and non-enzymic antioxidants to near normalcy. In addition, antitumour activity was also found to be enhanced which is evident from the increased expression of tumour suppressor gene MnSOD thereby preventing cancer cell proliferation. These results suggested that TAM treatment is the most effective during co-administration of riboflavin, niacin and CoQ10 in terms of mitochondrial antioxidant and antitumour activity.
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PMID:Augmented efficacy of tamoxifen in rat breast tumorigenesis when gavaged along with riboflavin, niacin, and CoQ10: effects on lipid peroxidation and antioxidants in mitochondria. 1576 22

Peptidyl-proline isomerase (Pin1) is able to trigger some conformationally important change in the p53 protein: there is notable protection by p53 (tumour suppressor protein) of human cells that prevents their entry into the carcinogenesis-committed routeway. Pin1 controls the ready (low energy change) equilibrium between the cis and trans distinctive folding configurations differentially at a proline residue: this amino acid residue in proteins is unique in bending sharply its peptide chain (to 90 degrees change): in the cis rather than trans orientation with respect to the peptide bond to residue X "upstream" linked as XCONHR. Moreover p53 protein can arrest a cell cycle progression (or trigger apoptosis) by acting as a transcription factor to nuclear DNA acting at p53 nuclear responsive element controlling a larger number of genes that produce proteins that stop cell growth or stimulate apoptosis, in stressed cells. Oxidative stress by reactive oxygen species (ROS) is carcinogenic but also stops cell growth and triggers apoptosis, Cu-SOD removes ROS (see figure). Could superoxide dismutase (Cu-SOD), therefore, provide the DNA-damage direct second route (first route is binding of Pin1) in DNA-damaged cells to p53 activation? The p53 protein that prevents carcinogenesis is activated by Pin1. In addition, this p53 tumour suppressor protein is activated by Cu-SOD.
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PMID:p53 Protein is activated by Pin1: and also by Cu-SOD prion-like enzyme. 1589 13

The transcription factor hypoxia-inducible factor-1 (HIF) is commonly activated in cancer. This has major effects on gene expression, and is important in tumor angiogenesis. Besides being activated by low oxygen, genetic events in cancer contribute to activating HIF. Most striking is that loss of function of the VHL tumour suppressor protein results in constitutive activation of the HIF pathway. An important aim is to define the contribution of HIF activation to the evolution of different cancers, and its potential as a therapeutic target.
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PMID:The HIF pathway in cancer. 1614 89

We have studied hypoxia-induced cell cycle arrest in human cells where the retinoblastoma tumour suppressor protein (pRb) is either functional (T-47D cells) or abrogated by expression of the HPV18 E7 oncoprotein (NHIK 3025 cells). Cells of both types are arrested in a restriction point in late G1, here denoted as the oxygen-dependent restriction point in late G1. This arrest seems to occur under extreme hypoxia in all types of mammalian cells so far tested. During an 18-h exposure to extreme hypoxia, the p27 protein level increased in G1-phase in both cells lines investigated and was followed by a binding between p27 and CDK2. This was observed both in the pRb-positive T-47D cells and in the pRb-negative NHIK 3025 cells. We, therefore, believe that p27 and not pRb is the mediator of this oxygen-dependent checkpoint in late G1. Our results also suggest that p27 regulates the restart of cell cycle progression of these arrested cells after reoxygenation.
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PMID:The role of p27 in controlling the oxygen-dependent checkpoint of mammalian cells in late G1. 1615 73

RNA polymerase (pol) III transcription decreases when primary cultures of rat neonatal cardiomyocytes are exposed to low oxygen tension. Previous studies in fibroblasts have shown that the pol III-specific transcription factor IIIB (TFIIIB) is bound and regulated by the proto-oncogene product c-Myc, the mitogen-activated protein kinase ERK and the retinoblastoma tumour suppressor protein, RB. The principal function of TFIIIB is to recruit pol III to its cognate gene template, an activity that is known to be inhibited by RB and stimulated by ERK. We demonstrate by chromatin immunoprecipitation (ChIP) that c-Myc also stimulates pol III recruitment by TFIIIB. However, hypoxic conditions cause TFIIIB dissociation from c-Myc and ERK, at the same time as increasing its interaction with RB. Consistent with this, ChIP assays indicate that the occupancy of tRNA genes by pol III is significantly reduced, whereas promoter binding by TFIIIB is undiminished. The data suggest that hypoxia can inhibit pol III transcription by altering the interactions between TFIIIB and its regulators and thus compromising its ability to recruit the polymerase. These effects are independent of cell cycle changes.
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PMID:Hypoxic stress suppresses RNA polymerase III recruitment and tRNA gene transcription in cardiomyocytes. 1640 35

The von Hippel-Lindau (VHL) tumour suppressor gene encodes a substrate-specifying component of an E3 ubiquitin ligase that targets hypoxia-inducible factor (HIF) alpha subunits for degradation under normoxia. The VHL protein is composed of an N-terminal HIFalpha-binding beta domain and a C-terminal alpha domain, which is necessary and sufficient for the formation of the E3 multiprotein enzyme. A large number of disease-causing mutations in either the alpha or beta domain renders HIFalpha stable irrespective of oxygen tension, leading to the upregulation of numerous HIF-target genes, such as GLUT1 and VEGF. Here, we show that VHL forms a self-associated complex in vivo, but not in vitro, and demonstrate that coexpression of two different VHL missense mutants -- one in the alpha domain and the other in the beta domain -- restores HIF-mediated gene expression profile. These findings indicate that VHL homotypic complexes can function in vivo in a complementary fashion to target HIFalpha for ubiquitin-mediated proteolysis, and potentially explain why VHL-associated tumours with a missense mutation-carrying VHL allele is almost invariably accompanied by a second VHL allele harbouring a gross truncation or deletion.
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PMID:Homotypic association between tumour-associated VHL proteins leads to the restoration of HIF pathway. 1640 35

In recent years, with the development of techniques in modem molecular biology, it has become possible to study the genetic basis of carcinogenesis down to the level of DNA sequence. Major advances have been made in our understanding of the genes involved in cell cycle control and descriptions of mutations in those genes. These developments have led to the definition of the role of specific oncogenes and tumour suppressor genes in several cancers, including, for example, colon cancers and some forms of breast cancer. Work reported from our laboratory has led to the identification of a number of candidate genes involved in the development of non-melanotic skin cancers. In this chapter, we attempt to further explain the observed (phenomic) alterations in metabolic pathways associated with oxygen consumption with the changes at the genetic level.
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PMID:Focusing on genomic and phenomic correlations in respiration of non-melanotic skin cancers. 1659 75

HIFalpha prolyl hydroxylases (PHDs) are a family of enzymes that regulate protein levels of the alpha subunit of the hypoxia inducible transcription factor (HIF) under different oxygen levels. PHDs catalyse the conversion of a prolyl residue, molecular oxygen and alpha-ketoglutarate to hydroxy-prolyl, carbon dioxide and succinate in a reaction dependent on ferrous iron and ascorbate as cofactors. Recently it was shown that pseudo-hypoxia, HIF induction under normoxic conditions, is an important feature of tumours generated as a consequence of inactivation of the mitochondrial tumour suppressor 'succinate dehydrogenase' (SDH). Two models have been proposed to describe the link between SDH inhibition and HIF activation. Both models suggest that a mitochondrial-generated signal leads to the inhibition of PHDs in the cytosol, however, the models differ in the nature of the proposed messenger. The first model postulates that mitochondrial-generated hydrogen peroxide mediates signal transduction while the second model implicates succinate as the molecular messenger which leaves the mitochondrion and inhibits PHDs in the cytosol. Here we show that pseudo-hypoxia can be observed in SDH-suppressed cells in the absence of oxidative stress and in the presence of effective antioxidant treatment.
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PMID:Redox stress is not essential for the pseudo-hypoxic phenotype of succinate dehydrogenase deficient cells. 1679 80

In response to DNA damage by genotoxic agents, histone H2AX is phosphorylated on Ser-139. However, during the cell cycle, predominantly in S and G(2)M phase, histone H2AX is also phosphorylated in untreated normal and tumour cells. This constitutive H2AX phosphorylation is markedly reduced by exposure of cells to the reactive oxygen species scavenger N-acetyl-L-cysteine. Therefore, it appears likely that constitutive H2AX phosphorylation reflects the ongoing oxidative DNA damage induced by the reactive oxygen species during progression through the cell cycle. Because the tumour suppressor p53 (tumour protein p53) is known to induce transcription of genes associated with cell response to oxidative stress, we have compared the intensity of constitutive H2AX phosphorylation, and the effect of N-acetyl-L-cysteine on it, in cells with different tumour protein p53 status. These were human lymphoblastoid cell lines derived from WIL2 cells: TK6, a p53 wt line, NH32, a tumour protein p53 knock-out derived from TK6, and WTK1, a WIL2-derived line that expresses a homozygous mutant of tumour protein p53. Also tested were the tumour protein p53-null promyelocytic HL-60 cells. The degree of constitutive H2AX phosphorylation was distinctly lower in NH32, WTK1 and HL-60 compared to TK6 cells in all phases of the cell cycle. Also, the degree of attenuation of constitutive H2AX phosphorylation by N-acetyl-L-cysteine was less pronounced in NH32, WTK1, and HL-60, compared to TK6 cells. However, the level of reactive oxygen species detected by the cells' ability to oxidize carboxyl-dichlorodihydrofluorescein diacetate was not significantly different in the cell lines studied, which would suggest that regardless of tumour protein p53 status, the level of oxidative DNA damage was similar. The observed higher level of constitutive H2AX phosphorylation in cells harbouring wt tumour protein p53 may thus indicate that tumour protein p53 plays a role in facilitating histone H2AX phosphorylation, an important step in the mobilization of the DNA repair machinery at the site of DNA double-strand breaks.
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PMID:Extent of constitutive histone H2AX phosphorylation on Ser-139 varies in cells with different TP53 status. 1687 65

The p16(INK4a) cyclin-dependent kinase inhibitor has a key role in establishing stable G1 cell-cycle arrest through activating the retinoblastoma (Rb) tumour suppressor protein pRb in cellular senescence. Here, we show that the p16(INK4a) /Rb-pathway also cooperates with mitogenic signals to induce elevated intracellular levels of reactive oxygen species (ROS), thereby activating protein kinase Cdelta (PKCdelta) in human senescent cells. Importantly, once activated by ROS, PKCdelta promotes further generation of ROS, thus establishing a positive feedback loop to sustain ROS-PKCdelta signalling. Sustained activation of ROS-PKCdelta signalling irreversibly blocks cytokinesis, at least partly through reducing the level of WARTS (also known as LATS1), a mitotic exit network (MEN) kinase required for cytokinesis, in human senescent cells. This irreversible cytokinetic block is likely to act as a second barrier to cellular immortalization ensuring stable cell-cycle arrest in human senescent cells. These results uncover an unexpected role for the p16(INK4a)-Rb pathway and provide a new insight into how senescent cell-cycle arrest is enforced in human cells.
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PMID:Mitogenic signalling and the p16INK4a-Rb pathway cooperate to enforce irreversible cellular senescence. 1707 52

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