Abstract
Originalsprog | Engelsk |
---|---|
Tidsskrift | American Journal of Physiology (Consolidated) |
Vol/bind | 259 |
Udgave nummer | 6 Pt 1 |
Sider (fra-til) | E778-86 |
Antal sider | 9 |
ISSN | 0002-9513 |
Status | Udgivet - 1990 |
Bibliografisk note
Keywords: 3-O-Methylglucose; Animals; Blood Glucose; Body Weight; Carbon Radioisotopes; Electron Transport Complex IV; Female; Glycogen; Heart; Liver Glycogen; Methylglucosides; Monosaccharide Transport Proteins; Muscle Contraction; Muscles; Organ Size; Physical Conditioning, Animal; Radioisotope Dilution Technique; Rats; Rats, Inbred Strains; Reference ValuesCitationsformater
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Effect of endurance training on glucose transport capacity and glucose transporter expression in rat skeletal muscle. / Ploug, T; Stallknecht, B M; Pedersen, O; Kahn, B B; Ohkuwa, T; Vinten, J; Galbo, H.
I: American Journal of Physiology (Consolidated), Bind 259, Nr. 6 Pt 1, 1990, s. E778-86.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review
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TY - JOUR
T1 - Effect of endurance training on glucose transport capacity and glucose transporter expression in rat skeletal muscle
AU - Ploug, T
AU - Stallknecht, B M
AU - Pedersen, O
AU - Kahn, B B
AU - Ohkuwa, T
AU - Vinten, J
AU - Galbo, H
N1 - Keywords: 3-O-Methylglucose; Animals; Blood Glucose; Body Weight; Carbon Radioisotopes; Electron Transport Complex IV; Female; Glycogen; Heart; Liver Glycogen; Methylglucosides; Monosaccharide Transport Proteins; Muscle Contraction; Muscles; Organ Size; Physical Conditioning, Animal; Radioisotope Dilution Technique; Rats; Rats, Inbred Strains; Reference Values
PY - 1990
Y1 - 1990
N2 - The effect of 10 wk endurance swim training on 3-O-methylglucose (3-MG) uptake (at 40 mM 3-MG) in skeletal muscle was studied in the perfused rat hindquarter. Training resulted in an increase of approximately 33% for maximum insulin-stimulated 3-MG transport in fast-twitch red fibers and an increase of approximately 33% for contraction-stimulated transport in slow-twitch red fibers compared with nonexercised sedentary muscle. A fully additive effect of insulin and contractions was observed both in trained and untrained muscle. Compared with transport in control rats subjected to an almost exhaustive single exercise session the day before experiment both maximum insulin- and contraction-stimulated transport rates were increased in all muscle types in trained rats. Accordingly, the increased glucose transport capacity in trained muscle was not due to a residual effect of the last training session. Half-times for reversal of contraction-induced glucose transport were similar in trained and untrained muscles. The concentrations of mRNA for GLUT-1 (the erythrocyte-brain-Hep G2 glucose transporter) and GLUT-4 (the adipocyte-muscle glucose transporter) were increased approximately twofold by training in fast-twitch red muscle fibers. In parallel to this, Western blot demonstrated a approximately 47% increase in GLUT-1 protein and a approximately 31% increase in GLUT-4 protein. This indicates that the increases in maximum velocity for 3-MG transport in trained muscle is due to an increased number of glucose transporters.
AB - The effect of 10 wk endurance swim training on 3-O-methylglucose (3-MG) uptake (at 40 mM 3-MG) in skeletal muscle was studied in the perfused rat hindquarter. Training resulted in an increase of approximately 33% for maximum insulin-stimulated 3-MG transport in fast-twitch red fibers and an increase of approximately 33% for contraction-stimulated transport in slow-twitch red fibers compared with nonexercised sedentary muscle. A fully additive effect of insulin and contractions was observed both in trained and untrained muscle. Compared with transport in control rats subjected to an almost exhaustive single exercise session the day before experiment both maximum insulin- and contraction-stimulated transport rates were increased in all muscle types in trained rats. Accordingly, the increased glucose transport capacity in trained muscle was not due to a residual effect of the last training session. Half-times for reversal of contraction-induced glucose transport were similar in trained and untrained muscles. The concentrations of mRNA for GLUT-1 (the erythrocyte-brain-Hep G2 glucose transporter) and GLUT-4 (the adipocyte-muscle glucose transporter) were increased approximately twofold by training in fast-twitch red muscle fibers. In parallel to this, Western blot demonstrated a approximately 47% increase in GLUT-1 protein and a approximately 31% increase in GLUT-4 protein. This indicates that the increases in maximum velocity for 3-MG transport in trained muscle is due to an increased number of glucose transporters.
M3 - Journal article
C2 - 2175551
VL - 259
SP - E778-86
JO - American Journal of Physiology - Cell Physiology
JF - American Journal of Physiology - Cell Physiology
SN - 0363-6143
IS - 6 Pt 1
ER -