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)

Murine preimplantation embryos exposed to hyperglycemia experience decreased glucose transport, and overexpression of the proapoptotic protein BAX, leading to increased apoptosis. These changes may account for the increased rates of miscarriages and malformations seen in women with diabetes mellitus. To test whether p53 expression is necessary for hyperglycemia-induced apoptosis, p53+/+, +/-, -/- embryos were obtained by superovulation. Two-cell embryos were cultured to a blastocyst stage in 52 mM D- or L-glucose. Apoptosis was detected using terminal dUTP nick end labeling (TUNEL) assays. In vivo studies were performed in the same manner using blastocysts recovered from streptozotocin-induced diabetic mothers. Both in vitro and in vivo studies showed that wildtype embryos had a significantly higher percentage of TUNEL-positive nuclei than p53+/- and -/- embryos. To test whether p53 is upstream of BAX, immunofluorescent confocal microscopy and immunoprecipitation/ immunoblotting were performed on blastocysts cultured in high vs. control glucose conditions. Blastocysts from p53+/+ mice exhibited increased BAX staining vs. p53+/- and -/- embryos. Next, to determine whether a decrease in glucose transport was upstream or downstream of p53, deoxyglucose transport was measured in individual blastocysts from p53+/+ and +/- diabetic vs. nondiabetic mice. Embryos from diabetic p53+/- mice exhibit a 44% decrease in glucose transport, similar to the 38% decrease seen in embryos from diabetic p53+/+ mice. Taken together, these results strongly indicate that p53 plays a role in hyperglycemia-induced apoptosis, upstream of BAX overexpression and downstream of the decrease in glucose transport experienced by the mouse preimplantation embryo.
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PMID:Hyperglycemia-induced apoptotic cell death in the mouse blastocyst is dependent on expression of p53. 1155 21

To determine whether enzymatic p53 glycosylation leads to angiotensin II formation followed by p53 phosphorylation, prolonged activation of the renin-angiotensin system, and apoptosis, ventricular myocytes were exposed to levels of glucose mimicking diabetic hyperglycemia. At a high glucose concentration, O-glycosylation of p53 occurred between 10 and 20 min, reached its peak at 1 h, and then decreased with time. Angiotensin II synthesis increased at 45 min and 1 h, resulting in p38 mitogen-activated protein (MAP) kinase-driven p53 phosphorylation at Ser 390. p53 phosphorylation was absent at the early time points, becoming evident at 1 h, and increasing progressively from 3 h to 4 days. Phosphorylated p53 at Ser 18 and activated c-Jun NH(2)-terminal kinases were identified with hyperglycemia, whereas extracellular signal-regulated kinase was not phosphorylated. Upregulation of p53 was associated with an accumulation of angiotensinogen and AT(1) and enhanced production of angiotensin II. Bax quantity also increased. These multiple adaptations paralleled the concentrations of glucose in the medium and the duration of the culture. Myocyte death by apoptosis directly correlated with glucose and angiotensin II levels. Inhibition of O-glycosylation prevented the initial synthesis of angiotensin II, p53, and p38-MAP kinase (MAPK) phosphorylation and apoptosis. AT(1) blockade had no influence on O-glycosylation of p53, but it interfered with p53 phosphorylation; losartan also prevented phosphorylation of p38-MAPK by angiotensin II. Inhibition of p38-MAPK mimicked at a more distal level the consequences of losartan. In conclusion, these in vitro results support the notion that hyperglycemia with diabetes promotes myocyte apoptosis mediated by activation of p53 and effector responses involving the local renin-angiotensin system.
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PMID:Hyperglycemia activates p53 and p53-regulated genes leading to myocyte cell death. 1157 21

Hypertrophy is one mechanism of pancreatic beta-cell growth and is seen as an important compensatory response to insulin resistance. We hypothesized that the induction of protective genes contributes to the survival of enlarged (hypertrophied) beta-cells. Here, we evaluated changes in stress gene expression that accompany beta-cell hypertrophy in islets from hyperglycemic rats 4 weeks after partial pancreatectomy (Px). A variety of protective genes were upregulated, with markedly increased expression of the antioxidant genes heme oxygenase-1 and glutathione peroxidase and the antiapoptotic gene A20. Cu/Zn-superoxide dismutase (SOD) and Mn-SOD were modestly induced, and Bcl-2 was modestly reduced; however, several other stress genes (catalase, heat shock protein 70, and p53) were unaltered. The increases in mRNA levels corresponded to the degree of hyperglycemia and were reversed in Px rats by 2-week treatment with phlorizin (treatment that normalized hyperglycemia), strongly suggesting the specificity of hyperglycemia in eliciting the response. Hyperglycemia in Px rats also led to activation of nuclear factor-kappaB in islets. The profound change in beta-cell phenotype of hyperglycemic Px rats resulted in a reduced sensitivity to the beta-cell toxin streptozotocin. Sensitivity to the toxin was restored, along with the beta-cell phenotype, in islets from phlorizin-treated Px rats. Furthermore, beta-cells of Px rats were not vulnerable to apoptosis when further challenged in vivo with dexamethasone, which increases insulin resistance. In conclusion, beta-cell adaptation to chronic hyperglycemia and, hence, increased insulin demand is accompanied by the induction of protective stress genes that may contribute to the survival of hypertrophied beta-cells.
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PMID:Increased expression of antioxidant and antiapoptotic genes in islets that may contribute to beta-cell survival during chronic hyperglycemia. 1181 49

The metabolic effects of hyperglycemia and hypoxia are important in the pathogenesis of diabetic neuropathy. We demonstrated apoptosis in dorsal root ganglion neurons in vitro by employing an oxygen-glucose deprivation model that uses dorsal root ganglia incubated in room air (pO2=150 torr) followed by hypoxic conditions (pO2=7.6 torr). Apoptosis was confirmed by demonstrating caspase-3 activation by immunocytochemistry. Immunocytochemistry and western blot analysis demonstrated an increase in activated p53, suggesting that DNA damage was occurring. Cell cycle disruption was examined by cyclin D1 expression. Neuronal death was associated with up-regulation of markers associated with DNA damage and aberrant entry into G1 of the cell cycle.
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PMID:Hypoxia-induced apoptosis of dorsal root ganglion neurons is associated with DNA damage recognition and cell cycle disruption in rats. 1469 47

Diabetes mellitus is one of the most common chronic diseases affecting millions of people worldwide. Cardiovascular complication including myocardial infarction is one of the major causes of death in diabetic patients. Diabetes mellitus induces abnormal pathological findings including cell hypertrophy, neuropathy, interstitial fibrosis, myocytolysis and apoptosis and lipid deposits in the heart. In addition, the cytoplasmic organelles of cardiomyocytes including the plasma membrane, mitochondrion and sarcoplasmic reticulum are also impaired in both type I and type II diabetes. Hyperglycaemia is a major aetiological factor in the development of diabetic cardiomyopathy in patients suffering from diabetes. Hyperglycaemia promotes the production of reactive oxygen (ROS) and nitrogen species (RNS). The release of ROS and RNS induces oxidative stress leading to abnormal gene expression, faulty signal transduction and apoptosis of cardiomyocytes. Hyperglycaemia also induces apoptosis by p53 and the activation of the cytochrome c-activated caspase-3 pathway. Stimulation of connective tissue growth factor and the formation of advanced glycation end products in extracellular matrix proteins induces collagen cross-linking and contribute to the fibrosis observed in the interstitium of the heart of diabetic subjects. In terms of signal transduction, defects in intracellular Ca2+ signalling due to alteration of expression and function of proteins that regulate intracellular Ca2+ also occur in diabetes. All of these abnormalities result in gross dysfunction of the heart. Beta-adrenoreceptor antagonists, ACE inhibitors, endothelin-receptor antagonist (Bonestan), adrenomedullin, hormones (insulin, IGF-1) and antioxidants (magniferin, metallothionein, vitamins C and E) reduce interstitial fibrosis and improve cardiac function in diabetic cardiomyopathy.
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PMID:Molecular and cellular basis of the aetiology and management of diabetic cardiomyopathy: a short review. 1536 3

Pituitary apoplexy is an acute clinical event usually caused by hemorrhage or infarction in a pituitary adenoma. We report the unusual case of hemorrhagic pituitary apoplexy in an 18 year-old male with previously undiagnosed type 2 diabetes mellitus who presented with unexplained hyperglycemia (glucose 49.2 mmol/l [887 mg/dl]) and obtundation and in whom an initial diagnosis of non-ketotic hyperglycemic coma (NKHC) was made. MRI revealed a heterogeneous mass arising from an expanded sella turcica into the suprasellar cistern. Despite well-controlled glucose levels on continuous insulin infusion, dexamethasone, and initiation of bromoergocriptine (parlodel) therapy, the patient's vision and pupillary responses deteriorated acutely. Following emergency transphenoidal surgery, the patient's vision and mental status improved. Data confirmed preoperative panhypopituitarism; serum prolactin was 396 ng/ml (microg/l). Immunostudies demonstrated tumoral labeling for prolactin, but not for ACTH, GH, TSH, LH, FSH, or P53.
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PMID:Hemorrhagic pituitary apoplexy in an 18 year-old male presenting as non-ketotic hyperglycemic coma (NKHC). 1604 31

The mechanisms related to hyperglycemia-induced pancreatic beta-cell apoptosis are poorly defined. Rat insulin-producing cells (RINm5F) cultured in high glucose concentrations (30 mM) showed increased apoptosis and protein p53 translocation to mitochondria. In addition, hyperglycemia induced both the disruption of mitochondrial membrane potential (Delta psi (m)), and an increase in reactive oxygen species (ROS), as shown by fluorescence changes of JC-1 and dichlorodihydrofluorescein-diacetate (DCDHF-DA), respectively. The increased intracellular ROS by high glucose exposure was blunted by mitochondrial-function and NADPH-oxidase inhibitors. We postulate that the concomitant mobilization of p53 protein to the mitochondria and the subsequent changes on the Delta psi (m), lead to an important pancreatic beta-cell apoptosis mechanism induced by oxidative stress caused by hyperglycemia.
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PMID:Hyperglycemia induces apoptosis and p53 mobilization to mitochondria in RINm5F cells. 1632 69

Obesity is typically associated with increased tumor susceptibility, whereas caloric restriction, a regimen resulting in leanness, inhibits carcinogenesis. The link between adiposity and malignancies suggests that adipose tissue may influence carcinogenesis. An adipose tissue hormone, leptin, could be procarcinogenic because it stimulates proliferation in various tissues and tumor cell lines. Leptin may contribute to the correlation between adiposity and malignancies as its levels are usually increased in obese subjects and reduced by caloric restriction. We hypothesized that leptin deficiency, despite obesity, would inhibit carcinogenesis in leptin-null ob/ob mice and tested this hypothesis in two models: (a) two-stage skin carcinogenesis initiated by 7,12-dimethylbenz(a)anthracene and promoted by phorbol 12-myristate 13-acetate (PMA) and (b) p53 deficiency. Contrary to a typical association between obesity and enhanced carcinogenesis, obese ob/ob mice developed induced skin papillomas and spontaneous p53-deficient malignancies, mostly lymphomas, similarly to their lean littermates. Surprisingly, lipodystrophic (ZIP) mice that had very little both adipose tissue and leptin were highly susceptible to carcinogenesis. Hyperphagia, hyperinsulinemia, and hyperglycemia are unlikely to have contributed significantly to the enhancement of carcinogenesis in ZIP mice because similarly hyperphagic, hyperinsulinemic, and hyperglycemic ob/ob mice had normal susceptibility to carcinogenesis. Our data suggest that, in contrast to a well-known correlation between obesity and cancer, the direct effect of adipose tissue may rather be protective.
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PMID:Susceptibility to induced and spontaneous carcinogenesis is increased in fatless A-ZIP/F-1 but not in obese ob/ob mice. 1695 Dec 7

Hyperglycemia and elevation of methylglyoxal (MG) are symptoms of diabetes mellitus (DM). We previously showed that high glucose (HG; 30 mM) or MG (50-400 microM) could induce apoptosis in mammalian cells, but these doses are higher than the physiological concentrations of glucose and MG in the plasma of DM patients. The physiological concentration of MG and glucose in the normal blood circulation is about 1 microM and 5 mM, respectively. Here, we show that co-treatment with concentrations of MG and glucose comparable to those seen in the blood circulation of DM patients (5 microM and 15-30 mM, respectively) could cause cell apoptosis or necrosis in human umbilical vein endothelial cells (HUVECs) in vitro. HG/MG co-treatment directly increased the reactive oxygen species (ROS) content in HUVECs, leading to increases in intracellular ATP levels, which can control cell death through apoptosis or necrosis. Co-treatment of HUVECs with 5 microM MG and 20 mM glucose significantly increased cytoplasmic free calcium levels, activation of nitric oxide synthase (NOS), caspase-3 and -9, cytochrome c release, and apoptotic cell death. In contrast, these apoptotic biochemical changes were not detected in HUVECs treated with 5 microM MG and 30 mM glucose, which appeared to undergo necrosis. Pretreatment with nitric oxide (NO) scavengers could inhibit 5 microM MG/20 mM glucose-induced cytochrome c release, decrease activation of caspase-9 and caspase-3, and increase the gene expression and protein levels of p53 and p21, which are known to be involved in apoptotic signaling. Inhibition of p53 protein expression using small interfering RNA (siRNA) blocked the activation of p21 and the cell apoptosis induced by 5 microM MG/20 mM glucose. In contrast, inhibition of p21 protein expression by siRNA prevented apoptosis in HUVECs but had no effect on p53 expression. These results collectively suggest that the treatment dosage of MG and glucose could determine the mode of cell death (apoptosis vs. necrosis) in HUVECs, and both ROS and NO played important roles in MG/HG-induced apoptosis of these cells.
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PMID:Methylglyoxal and high glucose co-treatment induces apoptosis or necrosis in human umbilical vein endothelial cells. 1772 90

Hyperglycemia causes direct apoptosis of neural progenitor cells (NPCs) in diabetic-induced neural tube defects in embryos. However, the underlying mechanisms are poorly understood. The present study is aimed to investigate the specific cellular proteins that may be involved in NPCs apoptosis as well as mechanisms by which the proteins regulate the oxidative stress-induced NPCs apoptosis. Our present results have shown that the expression of c-Abl was up-regulated in NPCs exposed to high glucose in vitro. The increased c-Abl was localized mainly in the nucleus. High glucose also induced an increase in nuclear p53 protein levels and the p53-c-Abl complex in NPCs. Administration of reactive oxygen species scavengers decreased the protein level of c-Abl, p53 and NPCs apoptosis. Inhibition of c-Abl reduced NPCs apoptosis and the nuclear protein level of p53 in response to high glucose. These results demonstrate that c-Abl is involved in the reactive oxygen species-activated apoptotic pathways in NPCs apoptosis. Inhibition of c-Abl may protect NPCs against insults induced by high glucose via the modulation of NPCs apoptotic machinery.
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PMID:c-Abl is involved in high glucose-induced apoptosis in embryonic E12.5 cortical neural progenitor cells from the mouse brain. 1862 12

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