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Título
Effect of RONS-Induced Intracellular Redox Homeostasis in 6-NBDG/Glucose Uptake in C2C12 Myotubes and Single Isolated Skeletal Muscle Fibres
Autor(es)
Palabras clave
Glucose uptake
6-NBDG
insulin resistance
C2C12 myotubes
Skeletal muscle fibres
ROS
Hydrogen peroxide
Nitric oxide
Redox homeostasis
Quantitative fluorescence microscopy
Clasificación UNESCO
3209 Farmacología
2411.10 Fisiología del Músculo
Fecha de publicación
2023
Editor
MDPI
Citación
Fernández Puente, E., Martín Prieto, E., Manuel Márquez, C., Palomero Labajos, J. (2023). Effect of RONS-Induced Intracellular Redox Homeostasis in 6-NBDG/Glucose Uptake in C2C12 Myotubes and Single Isolated Skeletal Muscle Fibres. International Journal of Molecular Sciences, 24 (9) p. 1-21. https://doi.org/10.3390/ijms24098082
Resumen
[EN] The glucose uptake in skeletal muscle is essential to produce energy through ATP, which is
needed by this organ to maintain vital functions. The impairment of glucose uptake compromises the
metabolism and function of skeletal muscle and other organs and is a feature of diabetes, obesity,
and ageing. There is a need for research to uncover the mechanisms involved in the impairment of
glucose uptake in skeletal muscle. In this study, we adapted, developed, optimised, and validated a
methodology based on the fluorescence glucose analogue 6-NBDG, combined with a quantitative
fluorescence microscopy image analysis, to determine the glucose uptake in two models of skeletal
muscle cells: C2C12 myotubes and single fibres isolated from muscle. It was proposed that reactive
oxygen and nitrogen species (RONS) and redox homeostasis play an important role in the modulation
of intracellular redox signalling pathways associated with glucose uptake. In this study, we prove that
the prooxidative intracellular redox environment under oxidative eustress produced by RONS such
as hydrogen peroxide and nitric oxide improves glucose uptake in skeletal muscle cells. However,
when oxidation is excessive, oxidative distress occurs, and cellular viability is compromised, although
there might be an increase in the glucose uptake. Based on the results of this study, the determination
of 6-NBDG/glucose uptake in myotubes and skeletal muscle cells is feasible, validated, and will
contribute to improve future research.
URI
DOI
10.3390/IJMS24098082
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