Oxidative stress in sickle cell disease; pathophysiology and potential implications for disease management

Nur, Erfan; Biemond, Bart J.; Otten, Hans-Martin; Brandjes, Dees P. M.; Schnog, John‐John B.

doi:10.1002/ajh.22012

Cited by 190 publications

(160 citation statements)

References 109 publications

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“…Moreover, NADPH oxidase activity may deplete the cellular pool of NADPH, thus impairing the ability of the RBC to maintain its antioxidant defenses. 2,13 In addition to inducing endogenous damage, erythrocyte-derived ROS, which can exit the cell via the membrane anion channel, 25 may also contribute to systemic oxidative stress by modifying the activity of plasma proteins, WBC, platelets, and endothelial cells. 1 The potential utility of antioxidant therapy in SCD is intriguing but with limited evidence to date that it can ameliorate the acute or chronic pathophysiology of the disease.…”

Section: Nadph Oxidase and Ros In Sickle Erythrocytes 2105mentioning

confidence: 99%

“…Chronic inflammation has emerged as an important pathogenic mechanism in SCD, and oxidative stress is increasingly recognized as a component of this chronic inflammatory state, inducing damage to a variety of subcellular and tissue structures. 1,2 Patients with SCD have decreased plasma levels of glutathione, vitamin C, and vitamin E, presumably due to consumption by increased oxidant production. [3][4][5] RBC and other cell types show evidence of lipid peroxidation and oxidative damage to structural proteins.…”

Section: Introductionmentioning

confidence: 99%

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Erythrocyte NADPH oxidase activity modulated by Rac GTPases, PKC, and plasma cytokines contributes to oxidative stress in sickle cell disease

George

Pushkaran

Konstantinidis

et al. 2013

Blood

172

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• Sickle RBC ROS production is mediated in part by NADPH oxidase activity.• Sickle RBC ROS production can be induced by plasma signaling molecules.Chronic inflammation has emerged as an important pathogenic mechanism in sickle cell disease (SCD). One component of this inflammatory response is oxidant stress mediated by reactive oxygen species (ROS) generated by leukocytes, endothelial cells, plasma enzymes, and sickle red blood cells (RBC). Sickle RBC ROS generation has been attributed to sickle hemoglobin auto-oxidation and Fenton chemistry reactions catalyzed by denatured heme moieties bound to the RBC membrane. In this study, we demonstrate that a significant part of ROS production in sickle cells is mediated enzymatically by NADPH oxidase, which is regulated by protein kinase C, Rac GTPase, and intracellular Ca 21 signaling within the sickle RBC. Moreover, plasma from patients with SCD and isolated cytokines, such as transforming growth factor b1 and endothelin-1, enhance RBC NADPH oxidase activity and increase ROS generation. ROS-mediated damage to RBC membrane components is known to contribute to erythrocyte rigidity and fragility in SCD. Erythrocyte ROS generation, hemolysis, vaso-occlusion, and the inflammatory response to tissue damage may therefore act in a positive-feedback loop to drive the pathophysiology of sickle cell disease. These findings suggest a novel pathogenic mechanism in SCD and may offer new therapeutic targets to counteract inflammation and RBC rigidity and fragility in SCD. (Blood. 2013;121(11):2099-2107 IntroductionVaso-occlusion and hemolysis from the rigid and concurrently fragile red blood cells (RBC) in patients with sickle cell disease (SCD) cause a variety of acute and chronic manifestations ranging from frequent and severe painful crises to stroke and chronic organ failure. Chronic inflammation has emerged as an important pathogenic mechanism in SCD, and oxidative stress is increasingly recognized as a component of this chronic inflammatory state, inducing damage to a variety of subcellular and tissue structures. 1,2Patients with SCD have decreased plasma levels of glutathione, vitamin C, and vitamin E, presumably due to consumption by increased oxidant production. [3][4][5] RBC and other cell types show evidence of lipid peroxidation and oxidative damage to structural proteins.6-8 Additionally, plasma from SCD patients has elevated levels of advanced glycation end products 9,10 and products of lipid peroxidation (F-2 isoprostanes, malonaldehyde, and 4-hydroxynonenal), [11][12][13] all of which are markers of oxidative stress. There are several postulated mechanisms for the increased oxidative stress in patients with SCD. Sickle (SS) RBC reactive oxygen species (ROS) generation has been attributed to sickle hemoglobin auto-oxidation and iron-mediated Fenton chemistry reactions catalyzed by denatured heme moieties bound to the RBC membrane.14 Plasma hemoglobin and free heme resulting from chronic hemolysis generate superoxide radicals via the same nonenzymatic mechanisms. 15 In...

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Section: Nadph Oxidase and Ros In Sickle Erythrocytes 2105mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Erythrocyte NADPH oxidase activity modulated by Rac GTPases, PKC, and plasma cytokines contributes to oxidative stress in sickle cell disease

George

Pushkaran

Konstantinidis

et al. 2013

Blood

172

View full text Add to dashboard Cite

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“…This reaction occurs to a lesser extent in normal RBC. But during stress, much more O -2 is generated leading to denaturation, precipitation, haemichrome formation and ROS production [36,37]. Aqueous extract of T. cordifolia inhibited fenton reaction in a dose dependent fashion with an IC50 value of 700 mg/ml [38].…”

Section: Effect Of Tccp On Radical Scavenging Activity and Endogenousmentioning

confidence: 99%

DNP induced oxidative stress on blood components ameliorated by Pyrrole derivative of Tinospora cordifolia.

Rashmi¹,

Aparna²

2017

J App Biol Biotech

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The intoxications and deaths caused by 2, 4-dinitrophenol (DNP) exposure through drugs, food supplements have been frequently reported and no specific treatment has been implemented to the toxic effects of DNP in adults and children. In this study, the purified compound (TCCP), a bioactive molecule from Tinospora cordifolia exhibited radical scavenging activities. Hence, we investigated the in vitro effect of TCCP on oxidative stress induced by DNP. Blood samples from healthy donors were treated with DNP (100µM/ml) for 2h. The DNP induced oxidative damage and effect of TCCP pre-treatment were determined by assessing the serum levels of cytoplasmic, lysosomal and oxidative stress markers. TCCP effectively inhibited DNP-induced oxidative stress on blood components, which was evidenced by the levels of endogenously generated reactive oxygen species and hydrogen peroxide. In addition, the depletion of GSH (reduced glutathione) content in DNP -treated cells was prevented by TCCP. Also, experimental results reflected the decreased expression of inflammation marker such as lipid peroxidase, catalase, LDH (lactate dehydrogenase), and phosphatase levels in cells with TCCP pre incubated DNP treated group. Therefore, these studies suggest the use of TCCP as an antioxidant and anti-inflammatory agent.

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“…It is the most common genetic disorder in persons of African Origin (Huisman, 1981) and its associated with several complications, including oxidative stress and generation of free radicals (Yoshikawa et al, 2000).There has been a growing body of evidence suggesting that an increase in oxidative stress and abnormal oxidants/antioxidants balance are implicated in the pathophysiology of several dysfunction observed in sickle cell anaemia (Nur et al, 2011) resulting in various haematological and biochemical changes (Odievre et al, 2011), that includes production of reactive oxygen species (ROS) like superoxide radicals, hydrogen peroxide, hydroxyl radicals and nitric oxide.…”

Section: Studies Of the Anti Oxidant Status In Subjects With Altered mentioning

confidence: 99%

“…Antioxidants terminate these chain reactions by removing free radical intermediate and inhibit the oxidation reactions (West, 2000). Oxidative stress, as has been hypothesized is a key player in the pathogenesis of several diseases that includes hypertension (Rodrigo et al, 2011), diabetes mellitus (Beynes and Thorpe, 1996) and sickle cell anaemia (Nur et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Studies of the Anti Oxidant Status in Subjects With Altered Metabolism in Niger Delta Region of Nigeria

Ezeiruaku¹,

Eze²

2016

IOSR

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Oxidative stress in sickle cell disease; pathophysiology and potential implications for disease management

Cited by 190 publications

References 109 publications

Erythrocyte NADPH oxidase activity modulated by Rac GTPases, PKC, and plasma cytokines contributes to oxidative stress in sickle cell disease

Erythrocyte NADPH oxidase activity modulated by Rac GTPases, PKC, and plasma cytokines contributes to oxidative stress in sickle cell disease

DNP induced oxidative stress on blood components ameliorated by Pyrrole derivative of Tinospora cordifolia.

Studies of the Anti Oxidant Status in Subjects With Altered Metabolism in Niger Delta Region of Nigeria

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