Abstract
The sarcolemmal fraction prepared from rat skeletal muscle consists of osmotically active vesicles that accumulate d-glucose in preference to l-glucose, apparently by facilitated diffusion into intravesicular space. Stereospecific d-glucose uptake by these vesicles is a saturable process, inhibited by phloridzin, by cytochalasin B, and by certain sugars, and enhanced by counterflow. An additional leak pathway permits entry of both d- and l-glucose into the vesicles. Stereospecific d-glucose transport by sarcolemmal vesicles is enhanced to a small extent by insulin, provided the hormone is administered prior to cell disruption. In membranes prepared from insulin-pretreated muscle, Ca 2+ produces a small further enhancement. Local anesthetics preferentially inhibit stereospecific d-glucose transport. Apparent uptake of both d- and l-glucose is greater when vesicles are suspended in salt solutions rather than sucrose, an effect attributed to increased functional vesicular volume.
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