Abstract

Over the past several years of funding, we have investigated the physiological significance of the triglyceride (TG) /fatty acid cycle. Most recently, we have focused on the mechanisms responsible for the deposition of excessive TG in the liver of severely burned patients. We now propose to extend these investigations to determine the clinical significance of the alterations in both liver and muscle lipid metabolism that lead to the accumulation of tissue TG in severe burn injury. We will investigate the possible role of the accumulation of tissue TG on insulin sensitivity. Insulin responsiveness will be assessed not only in terms of glucose metabolism, but also with regard to muscle and plasma protein synthesis. We will investigate the general hypothesis that the accumulation of intracellular TG in liver and muscle either directly contributes to insulin resistance in those tissues or serves as an indictor of the intracellular accumulation of active fatty acid products, such as diacylglycerol (DAG), which in turn disrupt insulin action. We will study the period of time 1-3 weeks following severe burn injury when tissue lipid rapidly accumulates. A series of specific hypotheses will be addressed regarding the possible relationships between muscle fatty acid oxidation, tissue lipid accumulation, elements of the insulin signaling cascade, and insulin action on glucose and protein metabolism. Studies will be performed in severely burned children. Principal methodological approaches will include stable isotope tracer techniques to quantify kinetic responses of protein, glucose and lipid metabolism in vivo, nuclear magnetic resonance spectroscopy (MRS) to quantify intracellular stores of TG and glycogen, measurement of the tissue levels of active products of fatty acids and key intermediates of the insulin signaling pathway, and the in vitro assessment of mitochondria oxidative capacity. These studies will help to clarify the physiological and clinical significance of the alterations of tissue lipid metabolism that occur after burn injury, thereby forming the basis for new therapeutic approaches not only in this specific clinical condition but in other clinical circumstances that involve the accumulation of hepatic and/or muscle TG.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK034817-23
Application #
7482328
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Program Officer
Laughlin, Maren R
Project Start
1984-12-01
Project End
2010-03-31
Budget Start
2008-04-01
Budget End
2010-03-31
Support Year
23
Fiscal Year
2008
Total Cost
$378,876
Indirect Cost

  Institution

Name
University of Arkansas for Medical Sciences
Department
Other Clinical Sciences
Type
Schools of Medicine
DUNS #
122452563
City
Little Rock
State
AR
Country
United States
Zip Code
72205

  Publications

Tuvdendorj, Demidmaa; Zhang, Xiao-jun; Chinkes, David L et al. (2015) Triglycerides produced in the livers of fasting rabbits are predominantly stored as opposed to secreted into the plasma. Metabolism 64:580-7
Zhang, Xiao-jun; Wang, Lijian; Tuvdendorj, Demidmaa et al. (2013) Acute hyperinsulinemia and reduced plasma free fatty acid levels decrease intramuscular triglyceride synthesis. Metabolism 62:44-51
Tuvdendorj, Demidmaa; Chinkes, David L; Herndon, David N et al. (2013) A novel stable isotope tracer method to measure muscle protein fractional breakdown rate during a physiological non-steady-state condition. Am J Physiol Endocrinol Metab 304:E623-30
Zhang, Xiao-Jun; Rodriguez, Noe A; Wang, Lijian et al. (2012) Measurement of precursor enrichment for calculating intramuscular triglyceride fractional synthetic rate. J Lipid Res 53:119-25
Tuvdendorj, Demidmaa; Chinkes, David L; Zhang, Xiao-Jun et al. (2011) Skeletal muscle is anabolically unresponsive to an amino acid infusion in pediatric burn patients 6 months postinjury. Ann Surg 253:592-7
Fram, Ricki Y; Cree, Melanie G; Wolfe, Robert R et al. (2010) Impaired glucose tolerance in pediatric burn patients at discharge from the acute hospital stay. J Burn Care Res 31:728-33
Fram, Ricki Y; Cree, Melanie G; Wolfe, Robert R et al. (2010) Intensive insulin therapy improves insulin sensitivity and mitochondrial function in severely burned children. Crit Care Med 38:1475-83
Cree, Melanie G; Fram, Ricki Y; Barr, David et al. (2009) Insulin resistance, secretion and breakdown are increased 9 months following severe burn injury. Burns 35:63-9
Cree, Melanie G; Fram, Ricki Y; Herndon, David N et al. (2008) Human mitochondrial oxidative capacity is acutely impaired after burn trauma. Am J Surg 196:234-9
Fram, Ricki Y; Cree, Melanie G; Chinkes, David L et al. (2007) Recovery of labeled CO2 from acetate in severely burned children. Am J Physiol Endocrinol Metab 293:E1726-9

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