ATP signaling in skeletal muscle: from fiber plasticity to regulation of metabolism
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ATP signaling in skeletal muscle: from fiber plasticity to regulation of metabolism
Abstract
Tetanic electrical stimulation releases adenosine triphosphate
(ATP) from muscle fibers through pannexin-1 channels in a frequency-dependent manner; extracellular ATP activates signals that
ultimately regulate gene expression and is able to increase glucose transport through activation of P2Y receptors, phosphatidylinositol 3-kinase,
Akt, and AS160. We hypothesize that this mechanism is an important link between exercise and the regulation of muscle fiber plasticity and
metabolism.
General note
Artículo de publicación ISI
Patrocinador
This work was financed by CONICYT ACT 1111 (E. Jaimovich, M. Casas,
S. Buvinic), FONDECYT no. 1110467 (E. Jaimovich, S. Buvinic, M. Casas),
11100454 (S. Buvinic), and U-INICIA VID 2011, U-INICIA 02/12M; University
of Chile (M. Casas).
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ATP Signaling in Skeletal Muscle Volume 42 & Number 3 & July 2014
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