Abstract
Conversion to glycogen is a major fate of ingested glucose in the body. A rate-limiting enzyme in the synthesis of glycogen is glycogen synthase encoded by two genes, GYS1, expressed in muscle and other tissues, and GYS2, primarily expressed in liver (liver glycogen synthase). Defects in GYS2 cause the inherited monogenic disease glycogen storage disease 0. We have generated mice with a liver-specific disruption of the Gys2 gene (liver glycogen synthase knock-out (LGSKO) mice), using Lox-P/Cre technology. Conditional mice carrying floxed Gys2 were crossed with mice expressing Cre recombinase under the albumin promoter. The resulting LGSKO mice are viable, develop liver glycogen synthase deficiency, and have a 95% reduction in fed liver glycogen content. They have mild hypoglycemia but dispose glucose less well in a glucose tolerance test. Fed, LGSKO mice also have a reduced capacity for exhaustive exercise compared with mice carrying floxed alleles, but the difference disappears after an overnight fast. Upon fasting, LGSKO mice reach within 4 h decreased blood glucose levels attained by control floxed mice only after 24 h of food deprivation. The LGSKO mice maintain this low blood glucose for at least 24 h. Basal gluconeogenesis is increased in LGSKO mice, and insulin suppression of endogenous glucose production is impaired as assessed by euglycemic-hyperinsulinemic clamp. This observation correlates with an increase in the liver gluconeogenic enzyme phosphoenolpyruvate carboxykinase expression and activity. This mouse model mimics the pathophysiology of glycogen storage disease 0 patients and highlights the importance of liver glycogen stores in whole body glucose homeostasis.
Highlights
Liver Glycogen Synthase Knock-out Mice is determined by a number of factors, including the activities of pyruvate carboxylase, phosphoenolpyruvate carboxykinase (PEPCK), fructose-1,6-bisphosphatase, and glucose-6-phophatase that are subjected to short term allosteric and/or covalent control, and long term transcriptional control (16, 17)
It has been suggested that liver glycogen stores increase during fetal development (36) and are important for neonatal survival until gluconeogenesis is fully established in the newborn liver (37)
Other studies, targeting the glucokinase gene for disruption in liver using CRE recombinase under albumin promoter control, showed that CRE expression and targeted gene recombination develop after birth (38)
Summary
Liver Glycogen Synthase Knock-out Mice is determined by a number of factors, including the activities of pyruvate carboxylase, phosphoenolpyruvate carboxykinase (PEPCK), fructose-1,6-bisphosphatase, and glucose-6-phophatase that are subjected to short term allosteric and/or covalent control, and long term transcriptional control (16, 17). A floxed allele of Gys was inactivated in liver by crossing with animals expressing the CRE recombinase under the control of the albumin promoter. These LGSKO mice are viable, despite a severe decrease in the ability of the liver to accumulate glycogen and display most of the symptoms of GSD0 patients. They are glucose-intolerant and prone to hypoglycemia upon fasting. When compared with fed controls, the LGSKO mice exhibit an impaired capacity for exercise
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