Increased epinephrine response and inaccurate glucoregulation in exercising athletes.

Epinephrine responses to insulin-induced hypoglycemia have indicated that athletes have a higher adrenal medullary secretory capacity than untrained subjects. This view was tested by an exercise protocol aiming at identical stimulation of the adrenal medulla in the two groups. Eight athletes (T) and eight controls (C) ran 7 min at 60% maximal O2 consumption (VO2max), 3 min at 100% VO2max, and 2 min at 110% VO2max. Plasma epinephrine both at rest and at identical relative work loads [110% VO2max: 8.73 +/- 1.51 (T) vs. 3.60 +/- 1.09 mmol X l-1 (C)] was higher [P less than 0.05) in T than in C. Norepinephrine, as well as heart rate, increased identically in the two groups, indicating identical sympathetic nervous activity. Lactate and glycerol were higher in T than in C after running. Glucose production peaked immediately after exercise and was higher in T than in C. Glucose disappearance increased less than glucose production and was identical in T and C. Accordingly plasma glucose increased, more in T than in C (P less than 0.01). In T glucose levels approached the renal threshold greater than 20 min postexercise. Glucose clearance increased less in T than in C during exercise and decreased postexercise to or below (T, P less than 0.05) basal levels, despite increased insulin levels. Long-term endurance training increases responsiveness of the adrenal medulla to exercise, indicating increased secretory capacity. During maximal exercise this may contribute to higher glucose production, lower clearance, more inaccurate glucoregulation, and higher lypolysis in T compared with C.