EC:3.1.3.9 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.9 (glucose-6-phosphatase)
3,081 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

French experience of 242 cases of liver glycogenoses is reported. Screening tests based on serum biochemical data and glucagon tolerance tests are briefly reviewed. The diagnosis of types I glycogen storage disease (GSD) was ascertained in 73 patients' liver biopsies by measurement of glycogen content and by studying the glucose-6-phosphatase system. Liver biopsies were also required at the beginning for the diagnosis of other hepatic GSDs; later on, the possibilities of diagnosis using peripheral blood cells were investigated. Eighty-four cases of type III GSD were confirmed by measurement of debranching enzyme activity and glycogen content using either liver biopsies (78 cases) and/or erythrocytes (37 cases); enzyme determination was also performed in leukocytes and/or fibroblasts for 18 patients. Twenty-four cases of type VI GSD underwent liver biopsies, and the diagnosis could be confirmed using mononuclear or polymorphonuclear cells for 11 of these patients. Sixty-one patients were identified as type IX GSD; phosphorylase kinase deficiency was demonstrated in erythrocytes for all patients, and a liver biopsy was analyzed for 26 of these cases. From this experience, the possibilities of diagnosis of liver GSD using peripheral blood cells are emphasized.
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PMID:Biochemical diagnosis of hepatic glycogen storage diseases: 20 years French experience. 164 31

Glycogen content and six major enzymatic activities involved in glycogen metabolism were analysed in chorionic villi (CV). Glycogen levels were found to be lower than those known to exist in liver and muscle. Activities of alpha-glucosidase, amylo-1,6-glucosidase, phosphorylase b and phosphorylase kinase were detectable by standard methods. The enzymatic activities of glucose-6-phosphatase and phosphorylase a were undetectable. These findings suggest that CV biopsies can be useful for first-trimester diagnosis of glycogen storage disease types II, III and VI, but not for type I (glucose-6-phosphatase deficiency).
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PMID:Enzymatic activity of glycogen metabolism in chorionic villi. 302 29

Glycogen storage diseases constitute a highly heterogeneous group of disorders, because of the many complex enzyme systems involved in glycogen metabolism, and also because of the diversity of molecular defects connected with gene mutations. To illustrate these features, the authors studied four types of liver glycogen storage diseases, respectively caused by deficiencies of glucose-6-phosphatase, debranching enzyme, phosphorylase and phosphorylase kinase. In each case, the role and functional characteristics of the enzyme system are described, as well as the bioclinical aspects of the deficiency. The only reliable way of diagnosing glycogen storage disease is by assaying the activity of the enzyme concerned. Assay procedure must take account of various factors, especially the progress made in understanding the nature and mechanism of action of enzyme systems, the possible tissular heterogeneity of the deficiency and the functional characteristics of certain enzymes.
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PMID:[Genetic heterogeneity and the diagnosis of hepatic glycogenoses]. 624 Oct 11

The experimental investigations have been carried out on 116 guinea pigs divided in two groups: the experimental and control group. The animals of the experimental group were sensitized with a 25% egg white suspension in 0.86% conc. of NaCl applied subcutaneously. After 21 days the same animals were exposed to the action of the same antigen in aerosol according to the method of Gerszanowicz, [16]. It has been shown, that in anaphylactic shock (acute and chronic) the damage of the lysosomal membranes in hepatocytes appeared which may be the cause of liberation among others also of acid phosphatase from the liver into the blood. Histochemically it was found a low phosphorylase and glucose-6-phosphatase activity, which was the basis of the assumption, that in anaphylactic shock we have to do with an enzymatic block--phosphorylase kinase--phosphorylase and inhibition of the enzymatic activity of glucose-6-phosphatase in the liver of guinea pigs. The comparison of the histochemical and biochemical results concerned with the amount of lipids, glycogen and nucleic acids in the liver revealed that the increasing amount of lipids is paralleled by decrease of glycogen. Among nucleic acids a growing level of ribonucleic acid was found while the level of the desoxyribonucleic acid remained stable.
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PMID:Morphochemical investigations of the liver and biochemical studies of the blood of guinea pigs in anaphylactic shock. 625 25

Glycogen storage diseases (GSD) are inborn errors of glycogen metabolism. Of the eight human GSD types in which the enzymatic deficiency has been identified, spontaneous animal counterparts have been reported for GSD I (glucose-6-phosphatase deficiency) in the mouse, for GSD II (acid alpha-glucosidase deficiency) in the dog, in cattle and in the quail, for GSD III (debrancher enzyme deficiency) in the dog and for GSD VIII (phosphorylase kinase deficiency) in the rat and the mouse. Experimentally induced GSD-like conditions have been described in the rat (Acarbose-induced GSD II-like conditions, iodoacetate-induced symptoms of myophosphorylase (GSD V) and myophosphofructokinase (GSD VII) deficiency) and the chicken (ochratoxin A-induced symptoms of cyclic AMP-dependent protein kinase deficiency). Enzymatic defects that are typical of the human GSD types have not been clearly identified in the induced animal conditions. The homology of animal and human GSD types is discussed. It is concluded that clinical, pathogenic and therapeutic studies of GSD may benefit from the use of animal models. For genetic studies of human GSD these models may prove to be of limited value, as the picture of several human GSD types is already obscured by genetic heterogeneity.
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PMID:Glycogen storage diseases in animals and their potential value as models of human disease. 640 5

Hepatic glycogen storage diseases (GSD) are a group of rare genetic disorders in which glycogen cannot be metabolized to glucose in the liver because of one of a number of possible enzyme deficiencies along the glycogenolytic pathway. Patients with GSD are usually diagnosed in infancy or early childhood with hypoglycemia, hepatomegaly, poor physical growth, and a deranged biochemical profile. Dietary therapies have been devised to use the available alternative metabolic pathways to compensate for disturbed glycogenolysis in GSD I (glucose-6-phosphatase deficiency), GSD III (debrancher enzyme deficiency), GSD VI (phosphorylase deficiency, which is less common), GSD IX (phosphorylase kinase deficiency), and GSD IV (brancher enzyme deficiency). In GSD I, glucose-6-phosphate cannot be dephosphorylated to free glucose. Managing this condition entails overnight continuous gastric high-carbohydrate feedings; frequent daytime feedings with energy distributed as 65% carbohydrate, 10% to 15% protein, and 25% fat; and supplements of uncooked cornstarch. In GSD III, though glycogenolysis is impeded, gluconeogenesis is enhanced to help maintain endogenous glucose production. In contrast to treatment for GSD I, advocated treatment for GSD III comprises frequent high-protein feedings during the day and a high-protein snack at night; energy is distributed as 45% carbohydrate, 25% protein, and 30% fat. Patients with GSD IV, VI, and IX have benefited from high-protein diets similar to that recommended for patients with GSD III.
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PMID:Nutrition therapy for hepatic glycogen storage diseases. 824 77

The effects of the adipocyte-derived hormone leptin on glucose metabolism in hepatocytes were investigated. Incubation of hepatocytes from Wistar rats with leptin for 16 h caused a dose-dependent increase in incorporation of [14C]glucose into glycogen, with a maximal effect at 30 nmol/l leptin. This effect of leptin was observed over a range of glucose concentrations (10-25 mmol/l) and was associated with stimulation of net glycogen deposition. It was not counteracted by mercaptopicolinate, an inhibitor of phosphoenolpyruvate carboxykinase, indicating that it is not due to increased gluconeogenic flux. Leptin also enhanced the short-term stimulation of glycogen synthesis by insulin. These effects of leptin were associated with inhibition of phosphorylase a, which occurred after 4 h of exposure to leptin. Culture with leptin for 16 h did not affect the activities of glucose-6-phosphatase or glucokinase or the activation state of glycogen synthase. Leptin did not affect glycolysis determined from the detritiation of [3-(3)H]glucose. The inhibitory effects of leptin on phosphorylase a were counteracted by short-term incubation with glucagon but were additive with the inhibitory effects of insulin and also with the inhibition caused by resorcinol (25 pmol/l), which inhibits phosphorylase kinase by a mechanism analogous to the antidiabetic drug proglycosyn. These results show that leptin has additive effects with insulin in inhibiting phosphorylase and stimulating glycogen storage in hepatocytes, indicating that these hormones act by separate but convergent mechanisms. It is concluded that the primary action of leptin in hepatocytes is to enhance glycogen storage. This may be an important compensatory mechanism for the inhibition of insulin secretion.
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PMID:Leptin enhances glycogen storage in hepatocytes by inhibition of phosphorylase and exerts an additive effect with insulin. 989 17

The molecular pathology of classical glycogen storage disorders, glycogen synthase deficiency and Fanconi-Bickel syndrome is reviewed. The isolation of the respective cDNAs, the chromosomal localization of the genes and the elucidation of the genomic organization enabled mutation analysis in most disorders. The findings have shed light on the multi-protein structure of the glucose-6-phosphatase system, the phosphorylase kinase enzymatic complex and the molecular background of the differential tissue expression in debranching enzyme deficiency. The immediate practical benefit of these studies is our extending ability to predict the outcome of clinical variants and to offer genetic counseling to most families. The elucidation of the tertiary structure of these proteins and their structure-function relationship poses major challenges for the future.
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PMID:The molecular background of glycogen metabolism disorders. 1082 Dec 16

Background PHKG2-related liver phosphorylase kinase deficiency is inherited in autosomal recessive pattern and is a rare type of liver glycogenosis. We demonstrated the clinical presentation and genetic determinants involved in children with PHKG2- related liver phosphorylase kinase deficiency. Methodology Ten Pakistani children with liver phosphorylase kinase from seven different families, were enrolled over a period of 18 months. All regions of the PHKG2 gene spanning exons and splicing sites were evaluated through targeted exome sequencing. Variants were analyzed using different bioinformatics tools. Novel variants were reconfirmed by direct sequencing. Results Seven different variants were identified in PHKG2 gene including five novel variants: three stop codons (c.226C>T [p.R76*], c.454C>T [p.R152*] and c.958C>T [p.R320*]), one missense variant c.107C>T (p.S36F) and one splice site variant (c.557-3C>G). All five novel variants were predicted to be damaging by in Silico analysis. The variants are being transmitted through recessive pattern of inheritance except one family (two siblings) has compound heterozygotes. Laboratory data revealed elevated transaminases and triglycerides, normal creatinine phosphokinase and uric acid levels but with glycogen loaded hepatocytes on liver histology. Conclusion PHKG2 related liver phosphorylase kinase deficiency can mimic both liver glycogenosis type I (glucose-6-phosphatase deficiency) & III(amylo-1,6 glucosidase) and characterized by early childhood onset of hepatomegaly, growth restriction, elevated liver enzymes and triglycerides. Molecular analysis would be helpful in accurate diagnosis and proper treatment. The symptoms and biochemical abnormalities in liver glycogenosis due phosphorylase kinase deficiency tend to improve with proper dietary restrictions but need to be monitored for long-term complications such as liver fibrosis and cirrhosis.
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PMID:Variability of clinical and biochemical phenotype in liver phosphorylase kinase deficiency with variants in the phosphorylase kinase (PHKG2) gene. 3269 58