C. B. Dolkas scite author profile

Spontaneously exercised rats show at rest enhanced responsiveness to exogenous insulin and lower plasma insulin levels after oral glucose than sedentary control rats. To assess insulin sensitivity of specific organs, glucose uptake by perfused hindlimb muscle and liver from resting exercise-trained rats was compared with perfused organs from control rats. Glucose uptake, assessed by metabolic clearance formulas, was 17% faster in hindlimbs from exercise-trained rats when perfused without added insulin and 43% faster at perfusate insulin levels of 40 microU/ml. After an overnight fast, glucose clearance in exercise-trained hindlimbs increased over controls by 57% in the basal state and by 97% at low perfusate levels. In contrast, glucose clearance by livers from both fed and fasted exercise-trained rats was less than one-half that of livers from control rats. These results suggest that skeletal muscle, and not liver, is the organ primarily responsible for the increased sensitivity to insulin-induced glucose uptake with exercise training and that this response is enhanced after overnight fasting.

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Insulin resistance in older rats

Narimiya¹,

Azhar²,

Dolkas³

et al. 1984

American Journal of Physiology-Endocrinology and Metabolism

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Insulin-stimulated glucose utilization was estimated in vivo in 1.5-, 4-, and 12-mo-old rats with an insulin suppression test wherein the height of the steady-state plasma glucose ( SSPG ) concentration, at similar steady-state plasma insulin levels, provides a direct reflection of the efficiency of insulin-stimulated glucose disposal. In parallel studies, the effect of age on in vitro insulin-stimulated glucose uptake was assessed in perfused hindlimb preparations. In addition, changes in the activity of enzymes that regulate muscle glycolysis, glycogenesis, and glycogenolysis were determined in isolated soleus muscle. The results indicated that rats got heavier as they became older, and changes in weight were associated with parallel increases in mean (+/- SE) SSPG concentrations as rats grew from 1.5 (56 +/- 3 mg/dl) to 4 (172 +/- 6 mg/dl) to 12 mo of age (194 +/- 8 mg/dl). The age-related decline in in vivo insulin action was associated with a reduction in insulin action on muscle, and maximal insulin-stimulated glucose uptake by perfused hindlimbs of 12-mo-old rats was approximately 50% of the value seen with perfused hindlimbs from 1.5-mo-old rats. Soleus muscle enzyme activity also varied with age, with significant increases in glycogen synthase and decreases in glycogen phosphorylase documented. Furthermore, muscle glycogen phosphorylase activity, which fell during an insulin infusion in 1.5-mo-old rats, did not change when 12-mo-old rats were infused at comparable insulin levels. Finally, glycogen content was significantly increased (P less than 0.01) in soleus muscle from 12-mo-old rats.(ABSTRACT TRUNCATED AT 250 WORDS)

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Removal of insulin by perfused rat liver: Effect of concentration

et al. 1975

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C. B. Dolkas

Site of enhanced insulin sensitivity in exercise-trained rats at rest

Insulin resistance in older rats

Removal of insulin by perfused rat liver: Effect of concentration

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