Association Between Nitric Oxide, Oxidative Stress, Eryptosis, Red Blood Cell Microparticles, and Vascular Function in Sickle Cell Anemia

Nader, Élie; Romana, Marc; Guillot, Nicolas; Fort, Romain; Stauffer, Émeric; Lemonne, Nathalie; Garnier, Yohann; Skinner, Sarah; Etienne‐Julan, Maryse; Robert, Marie; Gauthier, Alexandra; Cannas, Giovanna; Antoine‐Jonville, Sophie; Tressières, Benoît; Hardy‐Dessources, Marie‐Dominique; Bertrand, Yves; Martin, Cyril; Renoux, Céline; Joly, Philippe; Grau, Marijke; Connes, Philippe

doi:10.3389/fimmu.2020.551441

Cited by 35 publications

(49 citation statements)

References 69 publications

(98 reference statements)

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“…In this setting, accumulation of oxidative damage results in decreased deformability and generation of RBC-MPs. A recent study also demonstrated the key role of oxidative stress in RBC deformability and the release of RBC-MPs in the context of sickle cell anemia [ 26 ]. The application of omics technologies, including metabolomics, lipidomics, and proteomics, has contributed significantly to the understanding of RBC responses to oxidative stress [ 27 ].…”

Section: Introductionmentioning

confidence: 99%

Acute Cycling Exercise Induces Changes in Red Blood Cell Deformability and Membrane Lipid Remodeling

Nemkov

Skinner

Nader

et al. 2021

IJMS

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Here we describe the effects of a controlled, 30 min, high-intensity cycling test on blood rheology and the metabolic profiles of red blood cells (RBCs) and plasma from well-trained males. RBCs demonstrated decreased deformability and trended toward increased generation of microparticles after the test. Meanwhile, metabolomics and lipidomics highlighted oxidative stress and activation of membrane lipid remodeling mechanisms in order to cope with altered properties of circulation resulting from physical exertion during the cycling test. Of note, intermediates from coenzyme A (CoA) synthesis for conjugation to fatty acyl chains, in parallel with reversible conversion of carnitine and acylcarnitines, emerged as metabolites that significantly correlate with RBC deformability and the generation of microparticles during exercise. Taken together, we propose that RBC membrane remodeling and repair plays an active role in the physiologic response to exercise by altering RBC properties.

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Section: Introductionmentioning

confidence: 99%

Acute Cycling Exercise Induces Changes in Red Blood Cell Deformability and Membrane Lipid Remodeling

Nemkov

Skinner

Nader

et al. 2021

IJMS

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“…Vascular damage in ACS is at least partially mediated by generation of oxygen-related molecules, such as superoxide (O 2 − ), hydrogen peroxide (H 2 O 2 ), peroxynitrite (ONOO − ), and the hydroxyl (•OH) radical [ 5 ]. Enhanced intravascular hemolysis can lead to an accumulation of hemoglobin (Hb) and heme in plasma, which in turn decreases bioavailability of nitric oxide (NO) and enhances ROS generation [ 2 ]. Moreover, the continuous oxidation of the heme iron in Hb (auto-oxidation) and impaired anti-oxidant capacity promote a pro-oxidative environment in sickle erythrocytes, which compromises overall redox balance in these cells and affects their metabolic state.…”

Section: H 2 O 2 : a Pneumocmentioning

confidence: 99%

“…Sickle cell disease (SCD) arises from homozygous single nucleotide polymorphisms (SNP) in the sixth codon of the β-globin gene (HbSS) on chromosome 11 which causes substitution of a single valine (Val) residue for glutamic acid (Glu) [ 1 ]. As a consequence, HbSS can polymerize under deoxygenation and mediates the sickling of erythrocytes [ 2 ].…”

Section: Introductionmentioning

confidence: 99%

Streptococcus pneumoniae and Its Virulence Factors H2O2 and Pneumolysin Are Potent Mediators of the Acute Chest Syndrome in Sickle Cell Disease

Gonzales

Chakraborty

Romero

et al. 2021

Toxins

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Sickle cell disease (SCD) is one of the most common autosomal recessive disorders in the world. Due to functional asplenia, a dysfunctional antibody response, antibiotic drug resistance and poor response to immunization, SCD patients have impaired immunity. A leading cause of hospitalization and death in SCD patients is the acute chest syndrome (ACS). This complication is especially manifested upon infection of SCD patients with Streptococcus pneumoniae (Spn)—a facultative anaerobic Gram-positive bacterium that causes lower respiratory tract infections. Spn has developed increased rates of antibiotics resistance and is particularly virulent in SCD patients. The primary defense against Spn is the generation of reactive oxygen species (ROS) during the oxidative burst of neutrophils and macrophages. Paradoxically, Spn itself produces high levels of the ROS hydrogen peroxide (H2O2) as a virulence strategy. Apart from H2O2, Spn also secretes another virulence factor, i.e., the pore-forming exotoxin pneumolysin (PLY), a potent mediator of lung injury in patients with pneumonia in general and particularly in those with SCD. PLY is released early on in infection either by autolysis or bacterial lysis following the treatment with antibiotics and has a broad range of biological activities. This review will discuss recent findings on the role of pneumococci in ACS pathogenesis and on strategies to counteract the devastating effects of its virulence factors on the lungs in SCD patients.

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“…Several findings favor the primary involvement of oxidative stress in vesiculation ( Szigyarto et al, 2018 ; Nader et al, 2020 ): (I) MVs are enriched in antioxidant enzymes and irreversibly oxidized Hb ( Sudnitsyna et al, 2020 ); (II) some studies have indicated that treatment with oxidants decreased vesiculation, whereas antioxidants have an opposite effect ( Stowell et al, 2013 ; Nader et al, 2020 ). Oxidative stress, through the effects of ROS, may trigger both mechanisms of vesiculation—the clustering of Band-3 and the accumulation of intracellular Ca 2+ .…”

Section: Oxidative Stress and Membrane Sheddingmentioning

confidence: 99%

The Redox Balance and Membrane Shedding in RBC Production, Maturation, and Senescence

Fibach

2021

Front. Physiol.

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Membrane shedding in the form of extracellular vesicles plays a key role in normal physiology and pathology. Partial disturbance of the membrane–cytoskeleton linkage and increased in the intracellular Ca content are considered to be mechanisms underlying the process, but it is questionable whether they constitute the primary initiating steps. Homeostasis of the redox system, which depends on the equilibrium between oxidants and antioxidants, is crucial for many cellular processes. Excess oxidative power results in oxidative stress, which affects many cellular components, including the membrane. Accumulating evidence suggests that oxidative stress indirectly affects membrane shedding most probably by affecting the membrane–cytoskeleton and the Ca content. In red blood cells (RBCs), changes in both the redox system and membrane shedding occur throughout their life—from birth—their production in the bone marrow, to death—aging in the peripheral blood and removal by macrophages in sites of the reticuloendothelial system. Both oxidative stress and membrane shedding are disturbed in diseases affecting the RBC, such as the hereditary and acquired hemolytic anemias (i.e., thalassemia, sickle cell anemia, and autoimmune hemolytic anemia). Herein, I review some data-based and hypothetical possibilities that await experimental confirmation regarding some aspects of the interaction between the redox system and membrane shedding and its role in the normal physiology and pathology of RBCs.

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Association Between Nitric Oxide, Oxidative Stress, Eryptosis, Red Blood Cell Microparticles, and Vascular Function in Sickle Cell Anemia

Cited by 35 publications

References 69 publications

Acute Cycling Exercise Induces Changes in Red Blood Cell Deformability and Membrane Lipid Remodeling

Acute Cycling Exercise Induces Changes in Red Blood Cell Deformability and Membrane Lipid Remodeling

Streptococcus pneumoniae and Its Virulence Factors H2O2 and Pneumolysin Are Potent Mediators of the Acute Chest Syndrome in Sickle Cell Disease

The Redox Balance and Membrane Shedding in RBC Production, Maturation, and Senescence

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