Erythropoietin and Oxidative Stress

Maiese, Kenneth; Chong, Zhao Zhong; Hou, Jin-lin; Shang, Yan

doi:10.2174/156720208784310231

Cited by 110 publications

(117 citation statements)

References 237 publications

(358 reference statements)

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“…In basic experimental research and clinical studies, erythropoietin has been strongly associated with modulation of cellular metabolism (19,20). Diabetes mellitus, a major public health problem, comes also as main evidence when cellular dysfunction related to cell metabolism is under scrutiny (21).…”

Section: Discussionmentioning

confidence: 99%

“…Results obtained confirm observations of literature regarding the damaging effects of hyperglycemia mediated or stimulated by oxygen species. Mechanisms could be the following: 1) glucose oxidation pathways generate oxygen free radicals; 2) hyperglycemia deteriorates antioxidant capacity, and 3) mitochondria-derived reactive oxygen species is generated in hyperglycemic states (6,19,21).…”

Section: Discussionmentioning

confidence: 99%

“…Of late years it has been widely acknowledged that erythropoietin' s action is not limited to hemopoietic system, as erythropoietin involvement is being extensively evaluated in various pathological conditions concurrent with oxidative stress, vascular diseases, metabolic abnormalities or immune system dysfunction (19). Recent data of biomedical literature has shown that erythropoietin's pleiotropic actions are involved in normal and pathological ageing (18,20).…”

mentioning

confidence: 99%

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Correlation between erythropoietin serum levels and erythrocyte susceptibility to lipid peroxidation in elderly with type 2 diabetes

Grădinaru

Margină

Ilie

et al. 2015

Acta Physiologica Hungarica

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Erythropoietin (EPO), a key hormone involved in red blood cell formation has been recently acknowledged for its pleiotropic actions and protective role in ageing and various pathological conditions concurrent with oxidative stress, vascular diseases and metabolic abnormalities such as diabetes mellitus. The aim of the study was to evaluate the relationship between circulating erythropoietin levels and oxidative stress biomarkers, in elderly with type 2 diabetes (T2DM). The study was carried out in 67 subjects with T2DM (69 ± 5 years; n = 37) without anemia, and aged-matched controls (70 ± 6 years; n = 30). EPO serum levels, erythrocyte susceptibility to lipid peroxidation (ESP) and total antioxidant capacity (TAC) were evaluated. Lower EPO levels (p < 0.01) and higher ESP values (p < 0.001) were found in T2DM group, compared to healthy subjects. EPO levels showed significant negative associations with ESP, both in T2DM subjects (r = -0.565; p < 0.001) and in all study population (r = -0,600; p < 0,001; n = 67). In conclusion, we provide new data regarding the cytoprotective effect of EPO exerted at systemic level on erythrocyte membrane, in the particular state of impaired glucose metabolism associated with oxidative stress, in the elderly.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Correlation between erythropoietin serum levels and erythrocyte susceptibility to lipid peroxidation in elderly with type 2 diabetes

Grădinaru

Margină

Ilie

et al. 2015

Acta Physiologica Hungarica

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“…A major mechanism of Epo-induced neuroprotection is its ability to prevent apoptosis (Byts & Sirén, 2009;Chen et al, 2007;Chong et al, 2005;Digicaylioglu & Lipton, 2001;Kaindl et al, 2008;Kumral et al, 2006;Ruscher et al, 2002;Sirén et al, 2001;Villa et al, 2003;Weber et al, 2002;Wen et al, 2002;Wu et al, 2007). Other mechanisms of Epo-induced neuroprotection include anti-inflammatory, anti-oxidative, anti-neurotoxic, angiogenic, neurotrophic effects, neural regeneration, prevention from edema and protecting the white matter (Agnello et al, 2002;Kertesz et al, 2004;Kumral et al, 2005a,b;Maiese et al, 2008a;Pankratova et al, 2010;Rabie & Marti, 2008;Shingo et al, 2001;Sifringer et al, 2009Sifringer et al, , 2010Solaroglu et al, 2003;van der Kooij et al, 2008;Wang et al, 2004;Zacharias et al, 2010).…”

Section: Neuroprotective Mechanisms Of Epomentioning

confidence: 99%

“…The neonatal brain seems particularly vulnerable to oxidative injury because of immature scavenging mechanisms and a relative abundance of iron that acts as a catalyst for the formation of free radicals (Blomgren & Hagberg, 2006). Epo controls a variety of signal transduction pathways during oxidative stress that can involve Jak-2, Akt, STAT cascades, caspases, and NF-κB (Maiese et al, 2008a). Oxygen-induced cell death in the developing brain is associated with decreased GSH (reduced glutathione) and increased GSSG (oxidized glutathione) levels in which glutathione plays critical roles as an antioxidant (Bains and Shaw, 1997;Dringen, 2000), enzyme cofactor (Chance et al, 1979), cysteine storage form (Cooper and Kristal, 1997;Tateishi et al, 1977) and as a neuromodulator (Janáky et al, 1999) in the CNS.…”

Section: Anti-oxidant Effectsmentioning

confidence: 99%

The Protective Role of Erythropoietin in the Developing Brain

Sifringer¹,

Kaindl²,

Endesfelder³

et al. 2012

Preterm Birth - Mother and Child

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The effect of hemin‐induced oxidative stress on erythropoietin production in HepG2 cells

Nishimura

Tokida

Katsuyama

et al. 2014

Cell Biology International

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Erythropoietin (EPO) and iron are both indispensable hematopoietic factors and are often studied in humans and rodents. Iron activates prolyl hydroxylases (PHDs) and promotes the degradation of the α-subunit of hypoxia inducible factor (HIF), which regulates EPO production. Iron also causes oxidative stress. Oxidative stress leads to alterations in the levels of multiple factors that regulate HIF and EPO production. It is thought that iron influences EPO production by altering two pathways, namely PHDs activity and oxidative stress. We studied the differential effect of varying concentrations of hemin, an iron-containing porphyrin, on EPO production in HepG2 cells. Hemin at 100 µM reduced EPO mRNA expression. The hemin-induced reduction of EPO mRNA levels was attenuated at concentrations greater than 200 µM and EPO production increased in the presence of 500 µM hemin. In comparison, protoporphyrin IX, iron-free hemin did not influence EPO mRNA expression. Additionally, malondialdehyde (MDA) concentrations and superoxide dismutase (SOD) activity significantly increased with 300 µM hemin. Importantly, the antioxidant tempol inhibited the hemin-induced (500 µM) increase in EPO mRNA levels. In conclusion, these results suggest that restraint of EPO production by hemin was offset by the promotion of EPO production by hemin-induced oxidative stress at hemin concentrations greater than 300 µM.

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Erythropoietin and Oxidative Stress

Cited by 110 publications

References 237 publications

Correlation between erythropoietin serum levels and erythrocyte susceptibility to lipid peroxidation in elderly with type 2 diabetes

Correlation between erythropoietin serum levels and erythrocyte susceptibility to lipid peroxidation in elderly with type 2 diabetes

The Protective Role of Erythropoietin in the Developing Brain

The effect of hemin‐induced oxidative stress on erythropoietin production in HepG2 cells

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