Effect of physical activity and fasting on gut and liver proteolysis in the dog

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Effect of physical activity and fasting on gut and liver proteolysis in the dog

Amy E. Halseth, Paul J. Flakoll, Erica K. Reed, Allison B. Messina, Mahesh G. Krishna, D. Brooks Lacy, Phillip E. Williams, and David H. Wasserman

Department of Molecular Physiology and Biophysics, Diabetes Research and Training Center and Department of Surgery, Vanderbilt University School of Medicine, Nashville, Tennessee 37232

The aim of this study was to determine how gut and liver protein kinetics adapt to acute exercise in the 18-h-fasted dog (n= 7) and in dogs glycogen depleted by a 42-h fast (n = 8). Forthis purpose, sampling (artery and portal and hepatic veins) andinfusion (vena cava) catheters and Doppler flow probes (portalvein and hepatic artery) were implanted with animals under generalanesthesia. At least 16 days later, an experiment, consistingof a 120-min equilibration period, a 30-min basal sampling period,and a 150-min exercise period, was performed. At the start ofthe equilibration period, a constant rate infusion of [1-¹³C]leucine was initiated. Gut and liver leucine appearance anddisappearance rates were calculated in these studies by combininga novel stable isotopic method and arteriovenous difference methods.In the determination of tissue leucine kinetics the tissue inflowof both $alpha$ -[¹³C]ketoisocaproic acid and [¹³C]leucine was taken into account. The results of this study showthat 1) the splanchnic bed (liver plus gut) contributes ~40% tothe whole body proteolytic rate in the basal state and duringexercise in dogs fasted for either 18 or 42 h, 2) the contributionsof the gut and liver to splanchnic bed proteolysis is about equalin the basal state in both 18- and 42-h-fasted dogs, and 3) exercisein the 18-h-fasted dog leads to a greater emphasis on gut proteolysisand a lesser emphasis on hepatic proteolysis. These studies highlightthe important contribution of gut and hepatic proteolysis to wholebody proteolysis and the ability of the gut to acutely adapt tochanges in physical activity.

gastrointestinal tract; ketoisocaproic acid; stable isotope; amino acid

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