Overexpression of the P46 (T1) Translocase Component of the Glucose-6-phosphatase Complex in Hepatocytes Impairs Glycogen Accumulation via Hydrolysis of Glucose 1-Phosphate

The final step of gluconeogenesis and glycogenolysis is catalyzed by the glucose-6-phosphatase (Glc-6-Pase) enzyme complex, located in the endoplasmic reticulum. The complex consists of a 36-kDa catalytic subunit (P36), a 46-kDa glucose 6-phosphate translocase (P46), and putative glucose and inorgan...

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Published in:The Journal of biological chemistry 2001-04, Vol.276 (14), p.10722-10729
Main Authors: An, Jie, Li, Yazhou, van de Werve, Gerald, Newgard, Christopher B.
Format: Article
Language:English
Subjects:
Animals
Biological Transport - genetics
fructose-6-phosphate
Gene Expression Regulation, Enzymologic
Glucose-6-Phosphatase - genetics
Glucose-6-Phosphatase - metabolism
glucose-6-phosphate
Glycogen - metabolism
Humans
Liver - metabolism
Male
Nucleotidyltransferases - genetics
Nucleotidyltransferases - metabolism
p46 protein
Rats
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container_issue 14
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container_title The Journal of biological chemistry
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creator An, Jie
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van de Werve, Gerald
Newgard, Christopher B.
description The final step of gluconeogenesis and glycogenolysis is catalyzed by the glucose-6-phosphatase (Glc-6-Pase) enzyme complex, located in the endoplasmic reticulum. The complex consists of a 36-kDa catalytic subunit (P36), a 46-kDa glucose 6-phosphate translocase (P46), and putative glucose and inorganic phosphate transporters. Mutations in the genes encoding P36 or P46 have been linked to glycogen storage diseases type Ia and type Ib, respectively. However, the relative roles of these two proteins in control of the rate of glucose 6-phosphate hydrolysis have not been defined. To gain insight into this area, we have constructed a recombinant adenovirus containing the cDNA encoding human P46 (AdCMV-P46) and treated rat hepatocytes with this virus, or a virus encoding P36 (AdCMV-P36), or the combination of both viruses, resulting in large and equivalent increases in expression of the transgenes within 8–24 h of viral treatment. The overexpressed P46 protein was appropriately targeted to hepatocyte microsomes and caused a 58% increase in glucose 6-phosphate hydrolysis in nondetergent-treated (intact) microsomal preparations relative to controls, whereas overexpression of P36 caused a 3.6-fold increase. Overexpression of P46 caused a 50% inhibition of glycogen accumulation in hepatocytes from fasted rats incubated at 25 mm glucose relative to cells treated with a control virus (AdCMV-βGAL). Furthermore, in hepatocytes from fed rats cultured at 25 mm glucose and then exposed to 15 mm glucose, AdCMV-P46 treatment activated glycogenolysis, as indicated by a 50% reduction in glycogen content relative to AdCMV-βGAL-treated controls. In contrast, overexpression of P46 had only small effects on glycolysis, whereas overexpression of P36 had large effects on both glycogen metabolism and glycolysis, even in the presence of co-overexpressed glucokinase. Finally, P46 overexpression enhanced glucose 1-phosphate but not fructose 6-phosphate hydrolysis in intact microsomes, providing a mechanism by which P46 overexpression may exert its preferential effects on glycogen metabolism.
doi_str_mv 10.1074/jbc.M009525200
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The complex consists of a 36-kDa catalytic subunit (P36), a 46-kDa glucose 6-phosphate translocase (P46), and putative glucose and inorganic phosphate transporters. Mutations in the genes encoding P36 or P46 have been linked to glycogen storage diseases type Ia and type Ib, respectively. However, the relative roles of these two proteins in control of the rate of glucose 6-phosphate hydrolysis have not been defined. To gain insight into this area, we have constructed a recombinant adenovirus containing the cDNA encoding human P46 (AdCMV-P46) and treated rat hepatocytes with this virus, or a virus encoding P36 (AdCMV-P36), or the combination of both viruses, resulting in large and equivalent increases in expression of the transgenes within 8–24 h of viral treatment. The overexpressed P46 protein was appropriately targeted to hepatocyte microsomes and caused a 58% increase in glucose 6-phosphate hydrolysis in nondetergent-treated (intact) microsomal preparations relative to controls, whereas overexpression of P36 caused a 3.6-fold increase. Overexpression of P46 caused a 50% inhibition of glycogen accumulation in hepatocytes from fasted rats incubated at 25 mm glucose relative to cells treated with a control virus (AdCMV-βGAL). Furthermore, in hepatocytes from fed rats cultured at 25 mm glucose and then exposed to 15 mm glucose, AdCMV-P46 treatment activated glycogenolysis, as indicated by a 50% reduction in glycogen content relative to AdCMV-βGAL-treated controls. In contrast, overexpression of P46 had only small effects on glycolysis, whereas overexpression of P36 had large effects on both glycogen metabolism and glycolysis, even in the presence of co-overexpressed glucokinase. 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subjects Animals
Biological Transport - genetics
fructose-6-phosphate
Gene Expression Regulation, Enzymologic
Glucose-6-Phosphatase - genetics
Glucose-6-Phosphatase - metabolism
glucose-6-phosphate
Glycogen - metabolism
Humans
Liver - metabolism
Male
Nucleotidyltransferases - genetics
Nucleotidyltransferases - metabolism
p46 protein
Rats
title Overexpression of the P46 (T1) Translocase Component of the Glucose-6-phosphatase Complex in Hepatocytes Impairs Glycogen Accumulation via Hydrolysis of Glucose 1-Phosphate
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