AJP - Endocrinology and Metabolism, Vol 264, Issue 3 E334-E341, Copyright © 1993 by American Physiological Society

ARTICLES

Effects of subbasal insulin infusion on resting and exercise-induced glucose turnover in depancreatized dogs

Z. Q. Shi, A. Giacca, K. Yamatani, S. J. Fisher, H. L. Lickley and M. Vranic
Department of Physiology, University of Toronto, Ontario, Canada.

beta-Adrenergic blockade suppressed lipolysis and normalized the exercise-induced increments in glucose uptake (GlcU) and metabolic clearance rate (MCR) in alloxan-diabetic dogs with residual insulin, but not in insulin-deprived depancreatized dogs even when combined with methylpalmoxirate (MP), which suppresses fatty acid oxidation. The effects of a minimal amount of insulin (as in the alloxan-diabetic dog), were studied in depancreatized, 24-h insulin-deprived dogs during rest and treadmill exercise (6 km/h, 10% slope) using a 1/4 basal insulin infusion (50 microU.kg-1.min-1, insulin, n = 6) alone, or with MP (20 mg.kg-1.day orally, 2.5 days, MP+insulin, n = 6). At rest, insulin decreased circulating fatty acids (31%) and Glc (13%) and increased GlcU and MCR (86 and 72%). Glc production was unaffected. MP plus insulin markedly suppressed hepatic fatty acid oxidation, decreased Glc (44%) and Glc production (50%), and markedly increased MCR (128%). The exercise-induced increments in MCR were markedly improved only by MP plus insulin but were still lower than in the propranolol-treated alloxan-diabetic dogs. Plasma Glc inversely correlated with the exercise-induced increase in MCR (r = -0.86). We conclude that 1) acute infusion of subbasal insulin improved GlcU in depancreatized dogs at rest but not during exercise; 2) inhibition of fatty acid oxidation combined with subbasal insulin improved the exercise-induced increase in MCR; and 3) the difference in GlcU and MCR between the MP plus insulin-treated depancreatized dogs and the beta-blockade-treated alloxan-diabetic dogs suggests a difference between acute and chronic effects of insulin.

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