TY - JOUR
T1 - The effect of dexamethasone treatment on the expression of the regulatory genes of ketogenesis in intestine and liver of suckling rats
AU - Arias, Gladys
AU - Asins, Guillermina
AU - Hegardt, Fausto G.
AU - Serra, Dolors
PY - 1998/3/31
Y1 - 1998/3/31
N2 - The influence of the injection of dexamethasone on ketogenesis in 12 day old suckling rats was studied in intestine and liver by determining mRNA levels anti enzyme activity of the two genes responsible for regulation of ketogenesis: carnitine palmitoyl transferase I (CPTI) and mitochondrial HMG-CoA synthase. Dexamethasone produced a 2 fold increase in mRNA and activity of CPTI in intestine, but led to a decrease in mit. HMG-CoA synthase. In liver the mRNA levels and activity of both CPTI and mit. HMG-CoA synthase decreased. Comparison of these values with the ketogenic rate of both tissues following dexamethasone treatment suggests that mit. HMG-CoA synthase could be the main gene responsible for the regulation of ketogenesis in suckling rats. The changes produced in serum kerone bodies by dexamethasone, with a profile that is more similar to the ketogenic rate in the liver than that in the intestine, indicate that liver contributes more to ketone body synthesis in suckling rats. Two day treatment with dexamethasone produced no change in mRNA or activity levels for CPTI in liver or intestine. While mRNA levels for mit. HMG-CoA synthase changed little, the enzyme activity is decreased in both tissues.
AB - The influence of the injection of dexamethasone on ketogenesis in 12 day old suckling rats was studied in intestine and liver by determining mRNA levels anti enzyme activity of the two genes responsible for regulation of ketogenesis: carnitine palmitoyl transferase I (CPTI) and mitochondrial HMG-CoA synthase. Dexamethasone produced a 2 fold increase in mRNA and activity of CPTI in intestine, but led to a decrease in mit. HMG-CoA synthase. In liver the mRNA levels and activity of both CPTI and mit. HMG-CoA synthase decreased. Comparison of these values with the ketogenic rate of both tissues following dexamethasone treatment suggests that mit. HMG-CoA synthase could be the main gene responsible for the regulation of ketogenesis in suckling rats. The changes produced in serum kerone bodies by dexamethasone, with a profile that is more similar to the ketogenic rate in the liver than that in the intestine, indicate that liver contributes more to ketone body synthesis in suckling rats. Two day treatment with dexamethasone produced no change in mRNA or activity levels for CPTI in liver or intestine. While mRNA levels for mit. HMG-CoA synthase changed little, the enzyme activity is decreased in both tissues.
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U2 - 10.1023/A:1006875716407
DO - 10.1023/A:1006875716407
M3 - Article
SN - 0300-8177
SP - 325
EP - 333
JO - Molecular and Cellular Biochemistry
JF - Molecular and Cellular Biochemistry
ER -