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Department of Molecular Physiology and Biophysics, Vanderbilt University School of Medicine, Nashville, Tennessee 37232
Received 29 October 1996; accepted in final form 12 June 1997.
Namdaran, Kiarash, Deanna P. Bracy, D. Brooks Lacy, Janice
L. Johnson, Jennifer L. Bupp, and David H. Wasserman. Gut and
liver fat metabolism in depancreatized dogs: effects of exercise and
acute insulin infusion. J. Appl.
Physiol. 83(4): 1339-1347, 1997.
Excessive
circulating fat levels are a defining feature of poor metabolic control
in diabetes. Splanchnic adipose tissue is a source of free fatty acids
(FFA), and the liver is a key site of FFA utilization and the sole
source of ketones. Despite the role of splanchnic tissues in fat
metabolism, little is known about how these tissues respond to diabetes
under divergent metabolic conditions. Therefore, splanchnic fat
metabolism was studied in poorly controlled diabetes under two
conditions. First, it was studied during exercise, a stimulus that
enhances FFA flux. Second, it was studied while insulin was being
acutely infused to achieve levels normally present during exercise, a
treatment that may be expected to inhibit lipolysis. For this purpose,
liver and gut arteriovenous differences were used during rest and 2.5 h of treadmill exercise in insulin-deficient
(n = 6) and acutely insulin-infused
(n = 4) depancreatized (PX) dogs. The
data show that 1) exercise, in
insulin-deficient PX dogs, leads to an increase in net FFA release from
mesenteric fat that is equal in magnitude to the response in
nondiabetic dogs; 2) net hepatic
fractional FFA extraction is increased twofold during exercise in both
insulin-deficient PX dogs and nondiabetic control dogs;
3) during exercise, ~40 and 75%
of the FFA consumed by the liver is effectively transferred from fat
stores mobilized from splanchnic adipose tissue in insulin-deficient PX
and nondiabetic dogs, respectively;
4) hepatic ketogenic efficiency is
elevated during rest three- to fourfold in insulin-deficient PX dogs
compared with nondiabetic control dogs and remains elevated during
exercise; and 5) surprisingly, acute
insulin replacement is ineffective in normalizing net gut, hepatic, or
splanchnic FFA or ketone body balances in PX dogs.
splanchnic; nonesterified fatty acids; ketone bodies; exertion
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