Diabetes, Vol 44, Issue 4 423-430, Copyright © 1995 by American Diabetes Association

ARTICLES

Counterregulation of hypoglycemia. Skeletal muscle glycogen metabolism during three hours of physiological hyperinsulinemia in humans

N Cohen, L Rossetti, P Shlimovich, M Halberstam, M Hu and H Shamoon
Department of Medicine, Albert Einstein College of Medicine, Bronx, New York 10461.

We examined the role of skeletal muscle in counterregulation of hypoglycemia (3.4 +/- 0.1 mmol/l) in 12 nondiabetic individuals (age 26 +/- 1 years, body mass index 24.2 +/- 0.7 kg/m2) during physiological hyperinsulinemia (280 +/- 25 pmol/l) compared with euglycemia (4.8 +/- 0.1 mmol/l). During hypoglycemia, hepatic glucose output (3-[3H]-glucose) was greater (7.72 +/- 2.72 mumol.kg-1.min-1, P < 0.01), glucose uptake was approximately 49% lower (21.20 +/- 3.55 mumol.kg-1.min-1, P < 0.005), and glucose clearance was reduced (P < 0.002) compared with euglycemia. Rates of flux of plasma-derived glucosyl units through glycolysis were similar in the two experiments, while glycogen synthetic rates were significantly reduced during hypoglycemia (P < 0.01) and accounted entirely for the reduction in glucose disposal. The insulin-induced activation of skeletal muscle glycogen synthase (reflected by Km decline by approximately 50% from 0.408 +/- 0.056 mmol/l and fractional velocity increase by approximately twofold from 21.8 +/- 2.7%) was completely abolished in hypoglycemia. In concert, glycogen phosphorylase activity increased during hypoglycemia by approximately 40% (P = 0.0001). Hypoglycemia resulted in seven- to eightfold increments in plasma epinephrine (P < 0.0001) and growth hormone (P < 0.001) and 40-60% increments in plasma glucagon (P < 0.005) and cortisol (P < 0.05). We conclude that, in this model of mild hypoglycemia of moderate duration, the majority of the glucose made available during the counterregulatory process (approximately 60-70%) is due to the limitation of glucose disposal, mostly via decreased glycogen synthetic activity in skeletal muscle.
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