Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cancer and vascular diseases remain the predominant causes of morbidity and mortality in industrialized countries worldwide. The course of atherosclerosis with initiation, progression, and complication parallels the three stages of carcinogenesis with induction, growth, and invasion of tissue and neoangiogenesis. Within this framework, the oncogene c-Myc and growth factors pathways are acquiring increasing importance. Insulin-like growth factor-1 (IGF-1) pathway emerges among them for its versatile pleiotropic actions. A number of genes that permit extensive communication between IGF-1-AKT, p53, and mammalian target of rapamycin (mTOR) pathways have been identified. In turn these pathways lead to p53 transcriptional program, the forkhead transcriptional programs, autophagy, and translational controls, which determine cell growth or arrest, cell survival or death. The increased understanding of the extensive communication and coordination between all these pathways may enable to targeting these events and to prevent neoplastic and vascular diseases. Great effort has been focused on the development of new agents designed to target various steps of c-Myc, Ras, and IGF cascade. However, what have we recently learned about their safety and effectiveness? Here, we review the very recent advances in the identification of novel inhibitors as well as antisense oligonuleotides (ASOs) and siRNA that are proving their usefulness in ongoing clinical trials both in terms of toxicity and specificity.
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PMID:Targeting c-Myc, Ras and IGF cascade to treat cancer and vascular disorders. 1692 Dec 63

Although the role of the tumor suppressor gene p53 is well known in cancer, recent studies have highlighted a fundamental role for p53 in regulating cells in the advanced atherosclerotic plaque, the major cause of heart attacks and stroke. In particular, p53 is activated in the complex environment of the plaque, in part by DNA damage within the lesion, and regulates growth arrest, cell senescence and apoptosis of vascular smooth muscle cells (VSMCs). The role of endogenous p53 has been determined using p53 knockout in mice developing advanced atherosclerosis, using bone marrow transplant to separate effects on blood cells from vessel wall cells. These studies have produced apparently contradictory and surprising results. In particular, recent studies have identified a role for endogenous p53 in protection of VSMCs from apoptosis, trans-differentiation of bone marrow stromal cells into VSMCs in atherosclerosis, and altering the mode of cell death in the plaque.
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PMID:The role of p53 in atherosclerosis. 1692 77

Honokiol, an active component in extracts of Magnolia officinalis, has been proposed to play a role in anti-inflammatory, antioxidant activity, anti-angiogenic and anti-tumor activity. Although honokiol has a variety of pharmacological effects on certain cell types, its effects on vascular smooth muscle cells (VSMC) are unclear. This issue was investigated in the present study, honokiol was found to inhibit cell viability and DNA synthesis in cultured VSMC. These inhibitory effects were associated with G1 cell cycle arrest. Treatment with honokiol blocks the cell cycle in the G1 phase, down-regulates the expression of cyclins and CDKs and up-regulates the expression of p21WAF1, a CDK inhibitor. While honokiol did not up-regulate p27, it caused an increase in the promoter activity of the p21WAF1 gene. Immunoblot and deletion analysis of the p21WAF1 promoter showed that honokiol induced the expression of p21WAF1 and that this expression was independent of the p53 pathway. Furthermore, the honokiol-mediated signaling pathway involved in VSMC growth inhibition was examined. Among the relevant pathways, honokiol induced a marked activation of p38 MAP kinase and JNK. The expression of dominant negative p38 MAP kinase and SB203580, a p38 MAP kinase specific inhibitor, blocked the expression of honokiol-dependent p38 MAP kinase and p21WAF1. Consistently, blockade of p38 MAPK kinase function reversed honokiol-induced VSMC proliferation and cell cycle proteins. These data demonstrate that the p38 MAP kinase pathway participates in p21WAF1 induction, subsequently leading to a decrease in the levels of cyclin D1/CDK4 and cyclin E/CDK2 complexes and honokiol-dependent VSMC growth inhibition. In conclusion, these findings concerning the molecular mechanisms of honokiol in VSMC provides a theoretical basis for clinical approaches to the use therapeutic agents in treating atherosclerosis.
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PMID:Honokiol causes the p21WAF1-mediated G(1)-phase arrest of the cell cycle through inducing p38 mitogen activated protein kinase in vascular smooth muscle cells. 1696 92

To evaluate the joint effects between genetic polymorphisms of glutathione S-transferase M1, T1, P1, and p53, and arsenic exposure through drinking well water on the risk of carotid atherosclerosis, 605 residents including 289 men and 316 women were recruited from a northeastern area of Taiwan. Carotid atherosclerosis was diagnosed by either a carotid artery intima-media thickness (IMT) of >1.0 mm, a plaque score of > or =1, or stenosis of >50%. A significant age- and gender-adjusted odds ratio of 3.3 for the development of carotid atherosclerosis was observed among the high-arsenic exposure group who drank well water containing arsenic at levels >50 microg/L. The high-arsenic exposure group with GSTP1 variant genotypes of Ile/Val and Val/Val, and with the p53 variant genotypes of Arg/Pro and Pro/Pro had 6.0- and 3.1-fold higher risks of carotid atherosclerosis, respectively. In addition, the high-arsenic exposure group with one or two variant genotypes of GSTP1 and p53 had 2.8- and 6.1-fold higher risks of carotid atherosclerosis, respectively, and showed a dose-dependent relationship. A multivariate-adjusted odds ratio of 3.4 for the risk of carotid atherosclerosis among study subjects with the two variant genotypes of GSTP1 and p53 was also found. Our study showed the joint effects on the risk of carotid atherosclerosis between the genetic polymorphisms of GSTP1 and p53, and arsenic exposure.
Atherosclerosis 2007 Jun
PMID:Effects of arsenic exposure and genetic polymorphisms of p53, glutathione S-transferase M1, T1, and P1 on the risk of carotid atherosclerosis in Taiwan. 1697 68

The aim of this study was to investigate the inhibitory effect of non-aglycone cyanidin on TNF-alpha-induced endothelial cell apoptosis and its mechanism through enhancing expression of thioredoxin in endothelial cells. We found that exposure of the serum-starved BAECs to TNF-alpha increased significantly the number of dead cells, the cleaved caspase-3 and cleaved poly(ADP-ribose)polymerase (RARP)assayed by Western blot, whereas supplementation with cyanidin considerably suppressed these events. Inhibitors of the Akt, ERK1/2, Src kinase and transfection with a dominant-negative Akt cDNA blocked the inhibitory effect of cyanidin on cleaved caspase-3. Cyanidin significantly elevated expression of endothelial nitric oxide synthase (eNOS) and thioredoxin (Trx). The increased Trx expression was blocked by siRNA transfection of cGMP-dependent protein kinase (PKG) and by using a PKG inhibitor, KT5823. Cyanidin also ameliorated TNF-alpha-induced decrease of Trx S-nitrosylation and intracellular glutathione and elevation of 4-hydroxynonenal (4-HNE), a major aldehydic product of lipid peroxidation. Furthermore, cyanidin also restored S-nitrosylation of caspase-3 and reduced the rise in expression and acetylation of tumor suppression gene p53. However, KT5823 or L-NAME, an inhibitor of eNOS, removed the preventive effects of cyanidin. Our data show that inhibitory effect of cyanidin on TNF-alpha-induced apoptosis involves multiple pathways, such as Akt activation, eNOS and thioredoxin expression in endothelial cells.
Atherosclerosis 2007 Aug
PMID:Inhibitory effect of polyphenol cyanidin on TNF-alpha-induced apoptosis through multiple signaling pathways in endothelial cells. 1704 69

Reactive oxygen species (ROS) play a crucial role not only in the physiological signal transduction but also in the pathogenesis of several human diseases such as atherosclerosis, neuro-degenerative diseases, metabolic disorders, aging or cancer amongst others. Oxidative stress is also responsible for cellular and organism senescence, in accordance with what Harman initially proposed in the free radical theory of aging. Recent findings support the notion that protection from oxidative stress can increase life span significantly. We reported that enhanced glycolysis could modulate cellular life span with reduction of oxidative stress. Moreover, the tumor suppressor gene p53 controls post-transcriptionally the level of the glycolytic enzyme, phosphoglycerate mutase (PGM). As enhanced glycolysis is a distinctive and prominent feature of cancer cells (termed the Warburg effect), our findings disclosed a novel aspect of the Warburg effect: the connection between senescence and oxidative stress.
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PMID:Protection from oxidative stress by enhanced glycolysis; a possible mechanism of cellular immortalization. 1712 14

Acrolein, which is a highly reactive alpha,beta-unsaturated aldehyde generated by lipid peroxidation, can affect cells and tissues and cause various disorders. Increased levels of unsaturated aldehydes play an important role in the pathogenesis of a number of human diseases such as Alzheimer's disease, atherosclerosis and diabetes. Acrolein is a highly ubiquitous toxic environmental pollutant. Because of human exposure, there is a need for investigating the mechanisms involved in acrolein toxicity at the cellular and molecular levels. Acrolein can induce cell death by apoptosis, although the mechanisms are not entirely clear. The present study investigates whether mitogen-activated protein kinases (MAPKs) play a role in activation of apoptosis by acrolein. Our findings show that acrolein-mediated apoptosis is in fact MAPK-dependent in Chinese hamster ovary cells. The MAP family kinases, including ERK and p38 kinase, and the transcription factor c-Jun were all activated by phosphorylation after 1 h exposure to acrolein. Phosphorylation of ERK and p38 kinases and their blockade by an ERK inhibitor, U0126, or a p38 inhibitor, SB203580, respectively, suggested that activation of apoptosis by acrolein is ERK- and p38-dependent. Thus, blockade of ERK and p38 inhibited chromatin condensation, caspase-7 and -9 activation as well as ICAD cleavage induced by acrolein. JNK and AKT kinases seem to be implicated in survival pathways against acrolein insult, since their respective inhibitors, SP600125 and LY294002/Wortmannin switched the mode of cell death from apoptosis to total necrosis. Finally, acrolein induced phosphorylation of the pro-apoptotic factor p53 which is responsible for transcription of pro-apoptotic factors such as Bax and Fas ligand. These results provide new information demonstrating the implication of MAPKs and AKT in acrolein-induced apoptosis, and this information may be useful for understanding the pathogenesis of a number of tissue diseases and environmental toxicity in response to acrolein.
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PMID:P38 and ERK mitogen-activated protein kinases mediate acrolein-induced apoptosis in Chinese hamster ovary cells. 1719 91

We have recently shown that the natural bile pigment bilirubin has antiproliferative effects on vascular smooth muscle cells (VSMCs). Bilirubin is the end product of heme catabolism mediated by heme oxygenases and has for decades been considered a toxic waste product of our bodies. However, 14 separate studies and a meta-analysis have documented an inverse correlation between atherosclerosis and the levels of bilirubin in normal individuals. Having high normal or supranormal levels of bilirubin is associated with less atherosclerotic-type disease as compared with that in individuals with low normal levels of bilirubin. This combined with experimental data showing anti-atherosclerotic properties of the enzyme heme oxygenase-1 encouraged us to hypothesize that bilirubin and its precursor biliverdin, would act to ameliorate components of atherosclerosis, in a manner similar to what has been shown with HO-1. Both did so in an animal model of restenosis in which vascular smooth muscle cell proliferation leads to intimal proliferation and causes narrowing of the vessels. We also analyzed the antiproliferative effects of the bile pigments in an in vitro system where bilirubin/biliverdin caused p53 dependent cell cycle arrest by hypophosphorylation of the retinoblastoma tumor suppressor protein in growth factor stimulated VSMCs.
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PMID:Bilirubin and biliverdin treatment of atherosclerotic diseases. 1724 20

Dyslipidemia increases the risks for atherosclerosis in part by impairing endothelial integrity; endothelial progenitor cells (EPCs) play a pivotal role in reendothelialization. In this study, we investigated the mechanism whereby oxidized low-density lipoprotein (oxLDL) affects the function of differentiated EPCs (EDCs). In EDCs expanded in vitro from EPCs isolated from human cord blood, we measured EDC responses to both copper-oxidized LDL and L5, an electronegative LDL minimally oxidized in vivo in patients with hypercholesterolemia. OxLDL induced apoptosis of EDCs and impaired their response to nitric oxide. We found that the key to oxLDL-induced apoptosis in both EDCs and endothelial cells is the induction of a conformational change of Bax, leading to Bax activation without altering its expression. The conformationally changed Bax translocated to the mitochondria and stimulated apoptosis, as Bax knockdown prevented oxLDL-induced apoptosis in EDCs. The activation of Bax is mediated by an increase in p53 and knockdown of p53 abolished oxLDL-induced activation of Bax and apoptosis. OxLDL activated p53 through production of mitochondria-derived reactive oxygen species. In EDCs treated with a recombinant adenovirus expressing superoxide dismutase or N-acetyl-cysteine (but not catalase), the p53-Bax pathway activated by oxLDL was blocked, and apoptosis was prevented. Of importance, treatment of EDC with low-concentration L5 stimulated superoxide dismutase expression, which significantly attenuated apoptosis in EDCs exposed to high-concentration L5. These findings suggest that exposure of EDCs and endothelial cells to either experimentally prepared or naturally occurring modified LDL results in an increased transfer of mitochondria-derived superoxide anion to p53, which stimulates a conformational change in Bax favoring its translocation to the mitochondria with resultant apoptosis of these cells.
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PMID:Oxidized low-density lipoprotein stimulates p53-dependent activation of proapoptotic Bax leading to apoptosis of differentiated endothelial progenitor cells. 1728 42

Extending the productive lifespan of human cells could have major implications for diseases of aging, such as atherosclerosis. We identified a relationship between aging of human vascular smooth muscle cells (SMCs) and nicotinamide phosphoribosyltransferase (Nampt/PBEF/Visfatin), the rate-limiting enzyme for NAD+ salvage from nicotinamide. Replicative senescence of SMCs was preceded by a marked decline in the expression and activity of Nampt. Furthermore, reducing Nampt activity with the antagonist FK866 induced premature senescence in SMCs, assessed by serial quantification of the proportion of cells with senescence-associated beta-galactosidase activity. In contrast, introducing the Nampt gene into aging human SMCs delayed senescence and substantially lengthened cell lifespan, together with enhanced resistance to oxidative stress. Nampt-mediated SMC lifespan extension was associated with increased activity of the NAD+-dependent longevity enzyme SIRT1 and was abrogated in Nampt-overexpressing cells transduced with a dominant-negative form of SIRT1 (H363Y). Nampt overexpression also reduced the fraction of p53 that was acetylated on lysine 382, a target of SIRT1, suppressed an age-related increase in p53 expression, and increased the rate of p53 degradation. Moreover, add-back of p53 with recombinant adenovirus blocked the anti-aging effects of Nampt. These data indicate that Nampt is a longevity protein that can add stress-resistant life to human SMCs by optimizing SIRT1-mediated p53 degradation.
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PMID:Extension of human cell lifespan by nicotinamide phosphoribosyltransferase. 1730 30


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