Abstract
Liver metabolism is altered after systemic injuries such as burns and trauma. These changes have been elucidated in rat models of experimental burn injury where the liver was isolated and perfused ex vivo. Because these studies were performed in fasted animals to deplete glycogen stores, thus simplifying quantification of gluconeogenesis, these observations reflect the combined impact of fasting and injury on liver metabolism. Herein we asked whether the metabolic response to experimental burn injury is different in fed vs. fasted animals. Rats were subjected to a cutaneous burn covering 20% of the total body surface area, or to similar procedures without administering the burn, hence a sham-burn. Half of the animals in the burn and sham-burn groups were fasted starting on postburn day 3, and the others allowed to continue ad libitum. On postburn day 4, livers were isolated and perfused for 1 hour in physiological medium supplemented with 10% hematocrit red blood cells. The uptake/release rates of major carbon and nitrogen sources, oxygen, and carbon dioxide were measured during the perfusion and the data fed into a mass balance model to estimate intracellular fluxes. The data show that in fed animals, injury increased glucose output mainly from glycogen breakdown and minimally impacted amino acid metabolism. In fasted animals, injury did not increase glucose output but increased urea production and the uptake of several amino acids, namely glutamine, arginine, glycine, and methionine. Furthermore, sham-burn animals responded to fasting by triggering gluconeogenesis from lactate; however, in burned animals the preferred gluconeogenic substrate was amino acids. Taken together, these results suggest that the fed state prevents the burn-induced increase in hepatic amino acid utilization for gluconeogenesis. The role of glycogen stores and means to increase and/or maintain internal sources of glucose to prevent increased hepatic amino acid utilization warrant further studies.
Highlights
The liver has many complex physiological functions including detoxification, lipid, protein, and carbohydrate metabolism, as well as bile and urea production
These studies showed that the hepatic response to burn injury is generally characterized by an up-regulation of glucose, fatty acid and amino acid turnover as well as increased gene expression levels of enzymes involved in the urea cycle, gluconeogenesis, and the metabolism of several amino acids
The objective of this study was to determine the effect of fasting on the hepatic response to burn injury in a rat model
Summary
The liver has many complex physiological functions including detoxification, lipid, protein, and carbohydrate metabolism, as well as bile and urea production. There is significant prior work describing the effect of experimental burn injury on liver metabolism in a rat model using the isolated perfused liver approach [4,5,6,7,8,9], as well as in rats and rabbits using stable labeling approaches in whole animals [10,11] These studies showed that the hepatic response to burn injury is generally characterized by an up-regulation of glucose, fatty acid and amino acid turnover as well as increased gene expression levels of enzymes involved in the urea cycle, gluconeogenesis, and the metabolism of several amino acids. The objective of this study is to determine the effect of fasting on the hepatic response to burn injury, and as a corollary, the effect of burn injury on the fasting response of the liver
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