Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human recombinant erythropoietin (r-huEPO) is very effective in the treatment of anemia of hemodialyzed patients. We describe 4 patients who developed symptoms of central nervous dysfunction during r-huEPO therapy. Three exhibited typical hypertensive encephalopathy, whereas signs of cerebral ischemia were found in the fourth. The increase in blood viscosity with r-huEPO treatment, leading to a rise in peripheral vascular resistance and blood pressure especially in previously hypertensive patients, may be of importance in the pathogenesis of these cerebrovascular incidents; preexistent arteriosclerosis is an possible additional risk factor.
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PMID:[Cerebrovascular incidents in 4 hemodialysis patients treated with erythropoietin]. 318 75

The present study describes, for the first time, a temporal and spatial cellular expression of erythropoietin (Epo) and Epo receptor (Epo-R) with the evolution of a cerebral infarct after focal permanent ischemia in mice. In addition to a basal expression of Epo in neurons and astrocytes, a postischemic Epo expression has been localized specifically to endothelial cells (1 day), microglia/macrophage-like cells (3 days), and reactive astrocytes (7 days after occlusion). Under these conditions, the Epo-R expression always precedes that of Epo for each cell type. These results support the hypothesis that there is a continuous formation of Epo, with its corresponding receptor, during the active evolution of a focal cerebral infarct and that the Epo/Epo-R system might be implicated in the processes of neuroprotection and restructuring (such as angiogenesis and gliosis) after ischemia. To support this hypothesis, a significant reduction in infarct volume (47%; P < 0.0002) was found in mice treated with recombinant Epo 24 hours before induction of cerebral ischemia. Based on the above, we propose that the Epo/Epo-R system is an endogenous mechanism that protects the brain against damages consequent to a reduction in blood flow, a mechanism that can be amplified by the intracerebroventricular application of exogenous recombinant Epo.
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PMID:A potential role for erythropoietin in focal permanent cerebral ischemia in mice. 1036 94

Anemia is a common complication in cancer patients undergoing chemotherapy, and its severity depends on both the type of antineoplastic drugs and the clinical status of the patient. Breast cancer patients undergoing standard chemotherapy develop clinically significant anemia in up to 25% of cases. This percentage, moreover, increases up to 63% when more intensive chemotherapy regimens are used. The therapeutic use of erythropoietin in anemic patients, i.e., in patients with hemoglobin levels below 9-10.5 g/dl, is able to correct the anemic status in nearly 40%-80% of such patients, but it does not completely eliminate the need of blood transfusions: 20%-40% of patients need to be transfused despite the erythropoietin treatment. An alternative strategy for optimizing the erythropoietin treatment is its use in the prevention of anemia, i.e., in patients with normal hemoglobin values but at high risk of becoming anemic. In a phase III study, we evaluated the role of erythropoietin in the prevention of anemia in breast cancer patients undergoing dose-intensive chemotherapy. Clinically significant anemia occurred in 52% (95% CI = 33-69) of control patients and in no patient (95% CI = 0-14) in the erythopoietin arm (p =.00001). After six cycles of chemotherapy the mean hemoglobin decrease was 3.05 g/dl (&plusmn; 1.0, 95% CI = 2.6-3.5) in the control arm and 0.8 g/dl (&plusmn; 1.4, 95% CI = 0.3-1.4) in the erythropoietin arm. Moreover, 6.4% of control patients needed blood transfusion compared to no patients in the erythropoietin arm. Erythropoietin is active in both the treatment and the prevention of anemia in cancer patients undergoing chemotherapy. Due to its high economic cost, efforts should be made to identify subsets of patients in whom the preventive use could be cost-effective. Patients undergoing chemotherapy associated with a high risk of anemia could benefit from preventive use of erythropoietin in special circumstances, such as presence of risk of myocardial or cerebral ischemia, uncommon blood group, or religious beliefs hindering blood transfusions. Moreover, anemia prevention could be considered in patients at high risk of requiring blood transfusions, such as patients with low baseline value of hemoglobin or with a hemoglobin decrease of >/=2 g/dl after the first cycle of chemotherapy.
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PMID:Strategies for the Use of Epoetin Alfa in Breast Cancer Patients. 1038 21

Iron chelators are pluripotent neuronal antiapoptotic agents that have been shown to enhance metabolic recovery in cerebral ischemia models. The precise mechanism(s) by which these agents exert their effects remains unclear. Recent studies have demonstrated that iron chelators activate a hypoxia signal transduction pathway in non-neuronal cells that culminates in the stabilization of the transcriptional activator hypoxia-inducible factor-1 (HIF-1) and increased expression of gene products that mediate hypoxic adaptation. We examined the hypothesis that iron chelators prevent oxidative stress-induced death in cortical neuronal cultures by inducing expression of HIF-1 and its target genes. We report that the structurally distinct iron chelators deferoxamine mesylate and mimosine prevent apoptosis induced by glutathione depletion and oxidative stress in embryonic cortical neuronal cultures. The protective effects of iron chelators are correlated with their ability to enhance DNA binding of HIF-1 and activating transcription factor 1(ATF-1)/cAMP response element-binding protein (CREB) to the hypoxia response element in cortical cultures and the H19-7 hippocampal neuronal cell line. We show that mRNA, protein, and/or activity levels for genes whose expression is known to be regulated by HIF-1, including glycolytic enzymes, p21(waf1/cip1), and erythropoietin, are increased in cortical neuronal cultures in response to iron chelator treatment. Finally, we demonstrate that cobalt chloride, which also activates HIF-1 and ATF-1/CREB in cortical cultures, also prevents oxidative stress-induced death in these cells. Altogether, these results suggest that iron chelators exert their neuroprotective effects, in part, by activating a signal transduction pathway leading to increased expression of genes known to compensate for hypoxic or oxidative stress.
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PMID:Protection from oxidative stress-induced apoptosis in cortical neuronal cultures by iron chelators is associated with enhanced DNA binding of hypoxia-inducible factor-1 and ATF-1/CREB and increased expression of glycolytic enzymes, p21(waf1/cip1), and erythropoietin. 1055 91

In addition to its better-known hemopoietic action, erythropoietin (Epo) has neurotrophic properties and neuroprotective effects in some models of hypoxic-ischemic injury. To define further the cellular mechanisms underlying neuroprotection by Epo, we studied the effects of Epo on hypoxia with glucose deprivation in cultured rat cortical neurons and astroglia and on exposure to excitotoxins in cultured rat cortical neurons. Epo (30 pM) reduced neuronal, but not astroglial, cell death from hypoxia with glucose deprivation, and also attenuated the neurotoxic effect of (+/-)-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA), but not other excitotoxins. Epo appears to protect against cerebral ischemia through a direct effect on neurons that may be mediated in part by AMPA receptors.
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PMID:Erythropoietin protects cultured cortical neurons, but not astroglia, from hypoxia and AMPA toxicity. 1096 1

Erythropoietin exerts a neuroprotective effect during cerebral ischemia. We investigated the effect of systemic administration of recombinant human erythropoietin in a rabbit model of subarachnoid hemorrhage-induced acute cerebral ischemia. The animals were divided into three groups: group 1, subarachnoid hemorrhage; group 2, subarachnoid hemorrhage plus placebo; group 3, subarachnoid hemorrhage plus recombinant human erythropoietin (each group, n=8). Experimental subarachnoid hemorrhage was produced by injecting autologous blood into the cisterna magna. Treatment with recombinant human erythropoietin and placebo was started 5 min after subarachnoid hemorrhage and was continued every 8 h for 24 h. Before the animals were killed, erythropoietin concentration was measured in the cerebrospinal fluid. The rabbits were killed 24 h after subarachnoid hemorrhage and ischemic brain injury was histologically evaluated. In group 3, the concentration of erythropoietin in the cerebrospinal fluid was significantly increased and a significant reduction in cortical necrotic neuron count was also observed. These findings may encourage the use of erythropoietin in the treatment of cerebral ischemia that often occurs in the early stage of subarachnoid hemorrhage.
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PMID:Effect of recombinant human erythropoietin on cerebral ischemia following experimental subarachnoid hemorrhage. 1102 Apr 84

There is increasing evidence that erythropoietin (Epo) has a protective function in cerebral ischemia. When used for treatment, high Epo plasma levels associated with increases in blood viscosity, however, may counteract beneficial effects of Epo in brain ischemia. The authors generated two transgenic mouse lines that overexpress human Epo preferentially, but not exclusively, in neuronal cells. In mouse line tg21, a fourfold increase of Epo protein level was found in brain only, whereas line tg6 showed a dramatic increase of cerebral and systemic transgene expression resulting in hematocrit levels of 80%. Cerebral blood flow (CBF), as determined by bolus tracking magnetic resonance imaging, was not altered in the tg6 line. The time-to-peak interval for the tracer, however, increased approximately threefold in polyglobulic tg6 mice. Immunohistochemical analysis revealed an increase in dilated vessels in tg6 mice, providing an explanation for unaltered CBF in polyglobulic animals. Permanent occlusion of the middle cerebral artery (pMCAO) led to similar perfusion deficits in wild-type, tg6, and tg21 mice. Compared with wild-type controls, infarct volumes were not significantly smaller (22%) in tg21 animals 24 hours after pMCAO, but were 49% enlarged (P < 0.05) in polyglobulic tg6 mice. In the latter animals, elevated numbers of Mac-1 immunoreactive cells in infarcted tissue suggested that leukocyte infiltration contributed to enlarged infarct volume. The current results indicate that moderately increased brain levels of Epo in tg21 transgenic mice were not sufficient to provide significant tissue protection after pMCAO. The results with tg6 mice indicate that systemic chronic treatment with Epo associated with elevated hematocrit might deteriorate outcome after stroke either because of the elevated hematocrit or other chronic effects.
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PMID:Increased cerebral infarct volumes in polyglobulic mice overexpressing erythropoietin. 1143 98

Tolerance to cerebral ischemia is achieved by preconditioning sublethal stresses, such as ischemia or hypoxia, paradigms in which the decrease of O2 availability may constitute an early signal inducing tolerance. In accordance with this concept, this study shows that hypoxia induces tolerance against focal permanent ischemia in adult mice. Normobaric hypoxia (8% O2 of 1-hour, 3-hour, or 6-hour duration), performed 24 hours before ischemia, reduces infarct volume by approximately 30% when compared with controls. To elucidate the mechanisms underlying this neuroprotection, the authors investigated the effects of preconditioning on cerebral expression of hypoxia-inducible factor-1alpha (HIF-1alpha) and its target genes, erythropoietin and vascular endothelial growth factor (VEGF). Hypoxia, whatever its duration (1 hour, 3 hours, 6 hours), rapidly increases the nuclear content of HIF-1alpha as well as the mRNA levels of erythropoietin and VEGF. Furthermore, erythropoietin and VEGF are upregulated at the protein level 24 hours after 6 hours of hypoxia. The authors' findings show that (1) hypoxia elicits a delayed, short-lasting (<72 hours) tolerance to focal permanent ischemia in the adult mouse brain; (2) HIF-1 target genes could contribute to the establishment of tolerance; and (3) this model might be a useful paradigm to further study the mechanisms of ischemic tolerance, to identify new therapeutic targets for stroke.
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PMID:Normobaric hypoxia induces tolerance to focal permanent cerebral ischemia in association with an increased expression of hypoxia-inducible factor-1 and its target genes, erythropoietin and VEGF, in the adult mouse brain. 1191 10

The widely prescribed drug desferrioxamine is a known activator of the hypoxia-inducible transcription factor 1 (HIF-1) and the subsequent transcription of erythropoietin. In the brain, HIF-1 is a master switch of the transcriptional response to hypoxia, whereas erythropoietin is a potent neuroprotectant. The authors show that desferrioxamine dose-dependently and time-dependently induces tolerance against focal cerebral ischemia in rats and mice, and against oxygen-glucose deprivation in purified cortical neurons. Desferrioxamine induced HIF-1 DNA binding and transcription of erythropoietin in vivo, the temporal kinetics of which were congruent with tolerance induction. Desferrioxamine is a promising drug for the induction of tolerance in humans when ischemia can be anticipated.
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PMID:Desferrioxamine induces delayed tolerance against cerebral ischemia in vivo and in vitro. 1197 24

It is now widely known that erythropoietin (Epo) does not only affect the haematopoietic system, but it can be considered a multifunctional trophic factor with an effect on the general homoeostasis of the entire organism. The recent discovery of a specific Epo/Epo-receptor system in the central nervous system (CNS) and cerebrospinal fluid, independently of the haematopoietic system, has further paved the way for new studies aimed at investigating the different sites of cerebral expression of Epo and its receptor, the regulation of their expression and, finally, the effects that this hormone has on the development and maturation of the brain. A further aim has been to investigate how it influences CNS homoeostasis and neurotransmission in adult brain. Attention has also been focused on the neurotrophic and neuroprotective function of Epo in different conditions of neuronal damage, such as hypoxia, cerebral ischaemia and subarachnoid haemorrhage, and therefore on the possibility that human recombinant Epo therapy could soon be used in clinical practice, also to limit neuronal damage induced by these diseases.
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PMID:Erythropoietin and the brain: from neurodevelopment to neuroprotection. 1219 53


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