Your search keyword '"Asp, S."' showing total 7 results

1. Muscle contractions induce interleukin-6 mRNA production in rat skeletal muscles.

Author

Jonsdottir, I. H., Schjerling, P., Ostrowski, K., Asp, S., Richter, E. A., and Pedersen, B. K.

Published

2000

2. Evidence that interleukin-6 is produced in human skeletal muscle during prolonged running.

Author

Ostrowski, K., Rohde, T., Zacho, M., Asp, S., and Pedersen, B. K.

Published

1998

3. Eccentric exercise decreases glucose transporter GLUT4 protein in human skeletal muscle.

Author

Asp, S, Daugaard, J R, and Richter, E A

Abstract

1. Eccentric exercise causes impaired postexercise glycogen resynthesis. To study whether changes in muscle concentration of the glucose transporter (GLUT4) protein might be involved, seven healthy young men performed one‐legged eccentric exercise by resisting knee flexion enforced by a motor‐driven device. 2. The GLUT4 protein concentration in the exercised and in the control thigh was unchanged immediately after exercise. On days 1 and 2 after exercise, the GLUT4 protein concentration in the exercised muscle was 68 +/‐ 10 and 64 +/‐ 10% (means +/‐ S.E.M.; P < 0.05), respectively, of the concentration in the control muscle, and had returned to control values on days 4 and 7. 3. The muscle glycogen concentration decreased from 404 +/‐ 44 to 336 +/‐ 44 mmol (kg dry wt)‐1 (P < 0.05) during exercise. The glycogen concentration remained significantly lower than in the control thigh on days 1 and 2 after exercise but on days 4 and 7 no differences were found. 4. Although no cause‐effect relationship was established, these findings may suggest that decreased muscle concentrations of GLUT4 protein, and, hence, a decreased rate of glucose transport into muscle cells, may be involved in the sustained low glycogen concentration seen after eccentric exercise.

Published

1995

4. Eccentric exercise decreases maximal insulin action in humans: muscle and systemic effects.

Author

Asp, S, Daugaard, J R, Kristiansen, S, Kiens, B, and Richter, E A

Abstract

1. Unaccustomed eccentric exercise decreases whole‐body insulin action in humans. To study the effects of one‐legged eccentric exercise on insulin action in muscle and systemically, the euglycaemic clamp technique combined with arterial and bilateral femoral venous catheterization was used. Seven subjects participated in two euglycaemic clamps, performed in random order. One clamp was preceded 2 days earlier by one‐legged eccentric exercise (post‐eccentric exercise clamp (PEC)) and one was without the prior exercise (control clamp (CC)). 2. During PEC the maximal insulin‐stimulated glucose uptake over the eccentric thigh was marginally lower when compared with the control thigh, (11.9%, 64.6 +/‐ 10.3 vs. 73.3 +/‐ 10.2 mumol kg‐1 min‐1, P = 0.08), whereas no inter‐thigh difference was observed at a submaximal insulin concentration. The glycogen concentration was lower in the eccentric thigh for all three clamp steps used (P < 0.05). The glucose transporter GLUT4 protein content was on average 39% lower (P < 0.05) in the eccentric thigh in the basal state, whereas the maximal activity of glycogen synthase was identical in the two thighs for all clamp steps. 3. The glucose infusion rate (GIR) necessary to maintain euglycaemia during maximal insulin stimulation was lower during PEC compared with CC (15.7%, 81.3 +/‐ 3.2 vs. 96.4 +/‐ 8.8 mumol kg‐1 min‐1, P < 0.05). 4. Our data show that 2 days after unaccustomed eccentric exercise, muscle and whole‐body insulin action is impaired at maximal but not submaximal concentrations. The local effect cannot account for the whole‐body effect, suggesting the release of a factor which decreases insulin responsiveness systemically.

Published

1996

5. Marathon running transiently increases c-Jun NH2-terminal kinase and p38 activities in human skeletal muscle.

Author

Boppart MD, Asp S, Wojtaszewski JF, Fielding RA, Mohr T, and Goodyear LJ

Subjects

Adult, Calcium-Calmodulin-Dependent Protein Kinases metabolism, Humans, Isoenzymes metabolism, JNK Mitogen-Activated Protein Kinases, MAP Kinase Kinase 6, Male, Middle Aged, Mitogen-Activated Protein Kinase Kinases metabolism, Phosphorylation, Physical Fitness physiology, p38 Mitogen-Activated Protein Kinases, MAP Kinase Kinase 4, Mitogen-Activated Protein Kinases metabolism, Muscle, Skeletal enzymology, Running physiology

Abstract

We examined the pattern of activation and deactivation of the stress-activated protein kinase signalling molecules c-Jun NH2-terminal kinase (JNK) and p38 kinase in skeletal muscle in response to prolonged strenuous running exercise in human subjects. Male subjects (n = 14; age 32 +/- 2 years; VO2,max 60 +/- 2 ml kg-1 min-1) completed a 42.2 km marathon (mean race time 3 h 35 min). Muscle biopsies were obtained 10 days prior to the marathon, immediately following the race, and 1, 3 and 5 days after the race. The activation of JNK and p38, including both p38alpha and p38gamma, was measured with immune complex assays. The phosphorylation state of p38 (alpha and gamma) and the upstream regulators of JNK and p38, mitogen-activated protein kinase kinase 4 (MKK4) and mitogen-activated protein kinase kinase 6 (MKK6), were assessed using phosphospecific antibodies. JNK activity increased 7-fold over basal level immediately post-exercise, but decreased back to basal levels 1, 3 and 5 days after the exercise. p38gamma phosphorylation (4-fold) and activity (1.5-fold) increased immediately post-exercise and returned to basal levels at 1, 3 and 5 days following exercise. In contrast, p38alpha phosphorylation and activity did not change over the time course studied. MKK4 and MKK6 phosphorylation increased and decreased in a trend similar to that observed with JNK activity and p38gamma phosphorylation. Prolonged running exercise did not affect JNK, p38alpha, or p38gamma protein expression in the days following the race. This study demonstrates that both JNK and p38 intracellular signalling cascades are robustly, yet transiently increased following prolonged running exercise. The differential activation of the p38 isoforms with exercise in human skeletal muscle indicates that these proteins may have distinct functions in vivo.

Published

2000

6. Pro- and anti-inflammatory cytokine balance in strenuous exercise in humans.

Author

Ostrowski K, Rohde T, Asp S, Schjerling P, and Pedersen BK

Subjects

Adult, Enzyme-Linked Immunosorbent Assay, Humans, Interleukins metabolism, Male, Physical Endurance physiology, Plasma Volume physiology, Running physiology, Time Factors, Tumor Necrosis Factor-alpha metabolism, Cytokines blood, Exercise physiology, Inflammation blood

Abstract

1. The present study investigates to what extent and by which time course prolonged strenuous exercise influences the plasma concentration of pro-inflammatory and inflammation responsive cytokines as well as cytokine inhibitors and anti-inflammatory cytokines. 2. Ten male subjects (median age 27.5 years, range 24-37) completed the Copenhagen Marathon 1997 (median running time 3 : 26 (h : min), range 2 : 40-4 : 20). Blood samples were obtained before, immediately after and then every 30 min in a 4 h post-exercise recovery period. 3. The plasma concentrations of tumour necrosis factor (TNF)alpha, interleukin (IL)-1beta, IL-6, IL-1ra, sTNF-r1, sTNF-r2 and IL-10 were measured by enzyme-linked immunosorbent assay (ELISA). The highest concentration of IL-6 was found immediately after the race, whereas IL-1ra peaked 1 h post exercise (128-fold and 39-fold increase, respectively, as compared with the pre-exercise values). The plasma level of IL-1beta, TNFalpha, sTNF-r1 and sTNF-r2 peaked in the first hour after the exercise (2. 1-, 2.3-, 2.7- and 1.6-fold, respectively). The plasma level of IL-10 showed a 27-fold increase immediately post exercise. 4. In conclusion, strenuous exercise induces an increase in the pro-inflammatory cytokines TNFalpha and IL-1beta and a dramatic increase in the inflammation responsive cytokine IL-6. This is balanced by the release of cytokine inhibitors (IL-1ra, sTNF-r1 and sTNF-r2) and the anti-inflammatory cytokine IL-10. The study suggests that cytokine inhibitors and anti-inflammatory cytokines restrict the magnitude and duration of the inflammatory response to exercise.

Published

1999

7. Exercise metabolism in human skeletal muscle exposed to prior eccentric exercise.

Author

Asp S, Daugaard JR, Kristiansen S, Kiens B, and Richter EA

Subjects

Adult, Blood Glucose metabolism, Creatine Kinase metabolism, Diet, Fatty Acids, Nonesterified blood, Glucose Transporter Type 4, Glycogen metabolism, Humans, Lactates blood, Leg physiology, Male, Monosaccharide Transport Proteins metabolism, Oxygen blood, Thigh physiology, Exercise physiology, Muscle Proteins, Muscle, Skeletal metabolism, Muscle, Skeletal physiology

Abstract

1. The effects of unaccustomed eccentric exercise on exercise metabolism during a subsequent bout of graded concentric exercise were investigated in seven healthy male subjects. Arterial and bilateral femoral venous catheters were inserted 2 days after eccentric exercise of one thigh (eccentric thigh) and blood samples were taken before and during graded two-legged concentric knee-extensor exercise. Muscle biopsies were obtained from the eccentric and control vastus lateralis before (rest) and after (post) the concentric exercise bout. 2. Maximal knee-extensor concentric exercise capacity was decreased by an average of 23 % (P < 0.05) in the eccentric compared with the control thigh. 3. The resting muscle glycogen content was lower in the eccentric thigh than in the control thigh (402 +/- 30 mmol (kg dry wt)-1 vs. 515 +/- 26 mmol (kg dry wt)-1, means +/- s.e.m., P < 0.05), and following the two-legged concentric exercise this difference substantially increased (190 +/- 46 mmol (kg dry wt)-1 vs. 379 +/- 58 mmol (kg dry wt)-1, P < 0.05) despite identical power and duration of exercise with the two thighs. 4. There was no measurable difference in glucose uptake between the eccentric and control thigh before or during the graded two-legged concentric exercise. Lactate release was higher from the eccentric thigh at rest and, just before termination of the exercise bout, release of lactate decreased from this thigh (suggesting decreased glycogenolysis), whereas no decrease was found from the contralateral control thigh. Lower glycerol release from the eccentric thigh during the first, lighter part of the exercise (P < 0.05) suggested impaired triacylglycerol breakdown. 5. At rest, sarcolemmal GLUT4 glucose transporter content and glucose transport were similar in the two thighs, and concentric exercise increased sarcolemmal GLUT4 content and glucose transport capacity similarly in the two thighs. 6. It is concluded that in muscle exposed to prior eccentric contractions, exercise at a given power output requires a higher relative workload than in undamaged muscle. This increases utilization of the decreased muscle glycogen stores, contributing to decreased endurance.

Published

1998