Enhanced muscle glucose metabolism after exercise in the rat: the two phases

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Enhanced muscle glucose metabolism after exercise in the rat : the two phases. / Garetto, L P; Richter, Erik A.; Goodman, M N; Ruderman, N B.

I: American Journal of Physiology (Consolidated), Bind 246, Nr. 6 Pt 1, 1984, s. E471-E475.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Garetto, LP, Richter, EA, Goodman, MN & Ruderman, NB 1984, 'Enhanced muscle glucose metabolism after exercise in the rat: the two phases', American Journal of Physiology (Consolidated), bind 246, nr. 6 Pt 1, s. E471-E475.

APA

Garetto, L. P., Richter, E. A., Goodman, M. N., & Ruderman, N. B. (1984). Enhanced muscle glucose metabolism after exercise in the rat: the two phases. American Journal of Physiology (Consolidated), 246(6 Pt 1), E471-E475.

Vancouver

Garetto LP, Richter EA, Goodman MN, Ruderman NB. Enhanced muscle glucose metabolism after exercise in the rat: the two phases. American Journal of Physiology (Consolidated). 1984;246(6 Pt 1):E471-E475.

Author

Garetto, L P ; Richter, Erik A. ; Goodman, M N ; Ruderman, N B. / Enhanced muscle glucose metabolism after exercise in the rat : the two phases. I: American Journal of Physiology (Consolidated). 1984 ; Bind 246, Nr. 6 Pt 1. s. E471-E475.

Bibtex

@article{16229359c2f2427cbff7fac7e92274c8,
title = "Enhanced muscle glucose metabolism after exercise in the rat: the two phases",
abstract = "Thirty minutes after a treadmill run, glucose utilization and glycogen synthesis in perfused rat skeletal muscle are enhanced due to an increase in insulin sensitivity (Richter et al., J. Clin. Invest. 69: 785-793, 1982). The exercise used in these studies was of moderate intensity, and muscle glycogen was substantially repleted at the time (30 min postexercise) that glucose metabolism was examined. When rats were run at twice the previous rate (36 m/min), muscle glycogen was still substantially diminished 30 min after the run. At this time the previously noted increase in insulin sensitivity was still observed in perfused muscle; however, glucose utilization was also increased in the absence of added insulin (1.5 vs. 4.2 mumol X g-1 X h-1). In contrast 2.5 h after the run, muscle glycogen had returned to near preexercise values, and only the insulin-induced increase in glucose utilization was evident. The data suggest that the restoration of muscle glycogen after exercise occurs in two phases. In phase I, muscle glycogen is depleted and insulin-stimulated glucose utilization and glucose utilization in the absence of added insulin may both be enhanced. In phase II glycogen levels have returned to near base-line values and only the increase in insulin sensitivity persists. It is proposed that phase I corresponds to the period of rapid glycogen repletion that immediately follows exercise and phase II to the period of supercompensation.",
keywords = "Animals, Glucose, Glycogen, Hindlimb, Insulin, Lactates, Male, Motor Activity, Muscles, Rats, Rats, Inbred Strains, Tissue Distribution",
author = "Garetto, {L P} and Richter, {Erik A.} and Goodman, {M N} and Ruderman, {N B}",
year = "1984",
language = "English",
volume = "246",
pages = "E471--E475",
journal = "American Journal of Physiology (Consolidated)",
issn = "0002-9513",
publisher = "American Physiological Society",
number = "6 Pt 1",

}

RIS

TY - JOUR

T1 - Enhanced muscle glucose metabolism after exercise in the rat

T2 - the two phases

AU - Garetto, L P

AU - Richter, Erik A.

AU - Goodman, M N

AU - Ruderman, N B

PY - 1984

Y1 - 1984

N2 - Thirty minutes after a treadmill run, glucose utilization and glycogen synthesis in perfused rat skeletal muscle are enhanced due to an increase in insulin sensitivity (Richter et al., J. Clin. Invest. 69: 785-793, 1982). The exercise used in these studies was of moderate intensity, and muscle glycogen was substantially repleted at the time (30 min postexercise) that glucose metabolism was examined. When rats were run at twice the previous rate (36 m/min), muscle glycogen was still substantially diminished 30 min after the run. At this time the previously noted increase in insulin sensitivity was still observed in perfused muscle; however, glucose utilization was also increased in the absence of added insulin (1.5 vs. 4.2 mumol X g-1 X h-1). In contrast 2.5 h after the run, muscle glycogen had returned to near preexercise values, and only the insulin-induced increase in glucose utilization was evident. The data suggest that the restoration of muscle glycogen after exercise occurs in two phases. In phase I, muscle glycogen is depleted and insulin-stimulated glucose utilization and glucose utilization in the absence of added insulin may both be enhanced. In phase II glycogen levels have returned to near base-line values and only the increase in insulin sensitivity persists. It is proposed that phase I corresponds to the period of rapid glycogen repletion that immediately follows exercise and phase II to the period of supercompensation.

AB - Thirty minutes after a treadmill run, glucose utilization and glycogen synthesis in perfused rat skeletal muscle are enhanced due to an increase in insulin sensitivity (Richter et al., J. Clin. Invest. 69: 785-793, 1982). The exercise used in these studies was of moderate intensity, and muscle glycogen was substantially repleted at the time (30 min postexercise) that glucose metabolism was examined. When rats were run at twice the previous rate (36 m/min), muscle glycogen was still substantially diminished 30 min after the run. At this time the previously noted increase in insulin sensitivity was still observed in perfused muscle; however, glucose utilization was also increased in the absence of added insulin (1.5 vs. 4.2 mumol X g-1 X h-1). In contrast 2.5 h after the run, muscle glycogen had returned to near preexercise values, and only the insulin-induced increase in glucose utilization was evident. The data suggest that the restoration of muscle glycogen after exercise occurs in two phases. In phase I, muscle glycogen is depleted and insulin-stimulated glucose utilization and glucose utilization in the absence of added insulin may both be enhanced. In phase II glycogen levels have returned to near base-line values and only the increase in insulin sensitivity persists. It is proposed that phase I corresponds to the period of rapid glycogen repletion that immediately follows exercise and phase II to the period of supercompensation.

KW - Animals

KW - Glucose

KW - Glycogen

KW - Hindlimb

KW - Insulin

KW - Lactates

KW - Male

KW - Motor Activity

KW - Muscles

KW - Rats

KW - Rats, Inbred Strains

KW - Tissue Distribution

M3 - Journal article

C2 - 6377909

VL - 246

SP - E471-E475

JO - American Journal of Physiology (Consolidated)

JF - American Journal of Physiology (Consolidated)

SN - 0002-9513

IS - 6 Pt 1

ER -

ID: 154759682