Skeletal muscle glucose uptake during exercise: how is it regulated?
AJ Rose, EA Richter - Physiology, 2005 - journals.physiology.org
Physiology, 2005•journals.physiology.org
The increase in skeletal muscle glucose uptake during exercise results from a coordinated
increase in rates of glucose delivery (higher capillary perfusion), surface membrane glucose
transport, and intracellular substrate flux through glycolysis. The mechanism behind the
movement of GLUT4 to surface membranes and the subsequent increase in transport by
muscle contractions is largely unresolved, but it is likely to occur through intracellular
signaling involving Ca2+-calmodulin-dependent protein kinase, 5′-AMP-activated protein …
increase in rates of glucose delivery (higher capillary perfusion), surface membrane glucose
transport, and intracellular substrate flux through glycolysis. The mechanism behind the
movement of GLUT4 to surface membranes and the subsequent increase in transport by
muscle contractions is largely unresolved, but it is likely to occur through intracellular
signaling involving Ca2+-calmodulin-dependent protein kinase, 5′-AMP-activated protein …
The increase in skeletal muscle glucose uptake during exercise results from a coordinated increase in rates of glucose delivery (higher capillary perfusion), surface membrane glucose transport, and intracellular substrate flux through glycolysis. The mechanism behind the movement of GLUT4 to surface membranes and the subsequent increase in transport by muscle contractions is largely unresolved, but it is likely to occur through intracellular signaling involving Ca2+-calmodulin-dependent protein kinase, 5′-AMP-activated protein kinase, and possibly protein kinase C.
American Physiological SocietyShowing the best result for this search. See all results