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

by Stauffer, Emeric , Stefanoni, Davide , D’Alessandro, Angelo , Robert, Mélanie , Boisson, Camille , Nemkov, Travis , Nader, Elie , Skinner, Sarah C. , Connes, Philippe , Cendali, Francesca , Cibiel, Agnes

in Adult / Amino acids / Blood / Carbon / Discriminant analysis / Erythrocyte Count / Erythrocyte Deformability - genetics / Erythrocytes - metabolism / Exercise / Exercise - physiology / Fatty acids / Homeostasis / Humans / Lipidomics / Lipids / Male / Membrane Lipids - blood / Metabolism / Metabolites / Metabolomics / Oxidation / Oxidative stress / Oxygen Consumption / Physical Exertion - genetics / Physical Exertion - physiology / Physical fitness / Physiology / Plasma / Shear stress / Trends

2021

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

2021

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

2021

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Journal Article

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

Stauffer, Emeric,

Stefanoni, Davide,

D’Alessandro, Angelo,

Robert, Mélanie,

Boisson, Camille,

Nemkov, Travis,

Nader, Elie,

Skinner, Sarah C.,

Connes, Philippe,

Cendali, Francesca,

Cibiel, Agnes

2021

Overview

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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Publisher

MDPI AG,MDPI

Subject

Adult

/ Amino acids

/ Blood

/ Carbon

/ Discriminant analysis

/ Erythrocyte Count

/ Erythrocyte Deformability - genetics