TY - JOUR
T1 - Markers of Mitochondrial Biogenesis and Metabolism Are Lower in Overweight and Obese Insulin-Resistant Subejcts
AU - Heilbronn, L.K.
AU - Gan, Seng
AU - Turner, Nigel
AU - Campbell, L.V.
AU - Chisholm, D.J.
PY - 2007
Y1 - 2007
N2 - Background: Impaired mitochondrial function in skeletal muscle is implicated in the development of insulin resistance. However, potential differences in fatness and fitness may influence previous results.Methods: Subjects (n =18) were divided into insulin-sensitive (IS) and insulin-resistant (IR) groups by median glucose infusion rate during a hyperinsulinemic euglycemic clamp. Weight, VO2max (maximal aerobic capacity), and percentage body fat were measured before and after 6 continuous weeks of aerobic exercise training at 55–70% VO2max (40 min/session, 4 d/wk).Results: Age, percentage fat, and VO2max were not different between IS and IR groups at baseline. Expression of the nuclear encoded PGC1α and mitochondrial encoded gene COX1 were significantly lower in the IR group (P <0.05). Citrate synthase activity and protein levels of subunits from complexes I and III of the respiratory chain were also lower in the IR group (P <0.05). Insulin sensitivity and aerobic fitness were increased after exercise training in both groups (P <0.001), and the expression of mitochondrial encoded genes CYTB and COX1 was also increased (P <0.01). However, there was no change in PGC1α expression, mitochondrial enzyme activity, or protein levels of complexes of the respiratory chain in response to exercise in either group.Conclusion: This study confirms that IR men have reduced markers of mitochondrial metabolism, independent of fatness and fitness. Moderate exercise training did not alter these markers despite improving fitness and whole body insulin sensitivity. This study suggests that additional mechanisms may be involved in improving insulin resistance after exercise training in obese men.
AB - Background: Impaired mitochondrial function in skeletal muscle is implicated in the development of insulin resistance. However, potential differences in fatness and fitness may influence previous results.Methods: Subjects (n =18) were divided into insulin-sensitive (IS) and insulin-resistant (IR) groups by median glucose infusion rate during a hyperinsulinemic euglycemic clamp. Weight, VO2max (maximal aerobic capacity), and percentage body fat were measured before and after 6 continuous weeks of aerobic exercise training at 55–70% VO2max (40 min/session, 4 d/wk).Results: Age, percentage fat, and VO2max were not different between IS and IR groups at baseline. Expression of the nuclear encoded PGC1α and mitochondrial encoded gene COX1 were significantly lower in the IR group (P <0.05). Citrate synthase activity and protein levels of subunits from complexes I and III of the respiratory chain were also lower in the IR group (P <0.05). Insulin sensitivity and aerobic fitness were increased after exercise training in both groups (P <0.001), and the expression of mitochondrial encoded genes CYTB and COX1 was also increased (P <0.01). However, there was no change in PGC1α expression, mitochondrial enzyme activity, or protein levels of complexes of the respiratory chain in response to exercise in either group.Conclusion: This study confirms that IR men have reduced markers of mitochondrial metabolism, independent of fatness and fitness. Moderate exercise training did not alter these markers despite improving fitness and whole body insulin sensitivity. This study suggests that additional mechanisms may be involved in improving insulin resistance after exercise training in obese men.
U2 - 10.1210/jc.2006-2210
DO - 10.1210/jc.2006-2210
M3 - Article
C2 - 17244782
SN - 0021-972X
VL - 92
SP - 1467
EP - 1473
JO - The Journal of Clinical Endocrinology & Metabolism
JF - The Journal of Clinical Endocrinology & Metabolism
IS - 4
ER -